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2024-03-29T10:17:44Z
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https://netbiolab.org/w/File:2023_Bioinformatics_DeepLearning_Practice.zip
File:2023 Bioinformatics DeepLearning Practice.zip
2023-05-23T04:16:20Z
<p>Choiismath: </p>
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<div></div>
Choiismath
https://netbiolab.org/w/Journal_Club
Journal Club
2022-03-17T14:46:27Z
<p>Choiismath: </p>
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<div>{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2022-1st semester scOmics<br />
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|style="padding:.4em;" rowspan=1|Single-cell<br />
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|style="padding:.4em;"|IS Choi<br />
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[https://doi.org/10.1101/2022.02.05.479217 Biologically informed deep learning to infer gene program activity in single cells]<br />
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|style="padding:.4em;"|22-35<br />
|style="padding:.4em;"|SB Baek<br />
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[https://doi.org/10.1101/2021.10.17.464750 SIMBA: SIngle-cell eMBedding Along with features]<br />
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|style="padding:.4em;" rowspan=1|2022/06/03<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-34<br />
|style="padding:.4em;"|JH Cha<br />
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[https://pubmed.ncbi.nlm.nih.gov/34462589/ Mapping single-cell data to reference atlases by transfer learning]<br />
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|style="padding:.4em;" rowspan=1|2022/05/27<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-33<br />
|style="padding:.4em;"|JW Yu<br />
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[https://doi.org/10.1101/2021.10.31.466532 Pan-cancer mapping of single T cell profiles reveals a TCF1:CXCR6-CXCL16 regulatory axis essential for effective anti-tumor immunity]<br />
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|style="padding:.4em;" rowspan=1|2022/05/20<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://doi.org/10.1016/j.patter.2022.100443 EMBEDR: Distinguishing signal from noise in single-cell omics data]<br />
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|style="padding:.4em;"|22-31<br />
|style="padding:.4em;"|IS Choi <br />
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[https://pubmed.ncbi.nlm.nih.gov/34845454/ Identifying disease-critical cell types and cellular processes across the human body by integration of single-cell profiles and human genetics]<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34675423/ Co-varying neighborhood analysis identifies cell populations associated with phenotypes of interest from single-cell transcriptomics]<br />
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|style="padding:.4em;" rowspan=1|2022/04/29<br />
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|style="padding:.4em;"|22-29<br />
|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34426704/ Integrating T cell receptor sequences and transcriptional profiles by clonotype neighbor graph analysis (CoNGA)]<br />
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|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34986867/ Hepatocellular carcinoma patients with high circulating cytotoxic T cells and intra-tumoral immune signature benefit from pembrolizumab: results from a single-arm phase 2 trial]<br />
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|style="padding:.4em;" rowspan=1|2022/04/15<br />
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|style="padding:.4em;"|22-27<br />
|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/35199064/ Effect of imputation on gene network reconstruction from single-cell RNA-seq data]<br />
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|style="padding:.4em;" rowspan=1|2022/04/08<br />
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|style="padding:.4em;"|22-26<br />
|style="padding:.4em;"|IS Choi <br />
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[https://pubmed.ncbi.nlm.nih.gov/35105355/ Diagnostic Evidence GAuge of Single cells (DEGAS): a flexible deep transfer learning framework for prioritizing cells in relation to disease]<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/35172892/ Integrating single-cell sequencing data with GWAS summary statistics reveals CD16+monocytes and memory CD8+T cells involved in severe COVID-19]<br />
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|style="padding:.4em;" rowspan=1|2022/03/25<br />
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|style="padding:.4em;"|22-24<br />
|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34663807/ Single cell T cell landscape and T cell receptor repertoire profiling of AML in context of PD-1 blockade therapy]<br />
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|style="padding:.4em;" rowspan=1|2022/03/18<br />
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|style="padding:.4em;"|22-23<br />
|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34594031/ Systematic investigation of cytokine signaling activity at the tissue and single-cell levels]<br />
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|style="padding:.4em;" rowspan=1|2022/03/04<br />
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|style="padding:.4em;"|22-22<br />
|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34852236/ Neoantigen-driven B cell and CD4 T follicular helper cell collaboration promotes anti-tumor CD8 T cell responses]<br />
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|style="padding:.4em;"|22-21<br />
|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34930412/ MultiMAP: dimensionality reduction and integration of multimodal data]<br />
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|style="padding:.4em;" rowspan=1|2022/02/18<br />
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|style="padding:.4em;"|22-20<br />
|style="padding:.4em;"|IS Choi <br />
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[https://www.biorxiv.org/content/10.1101/2020.10.19.345983v2 CellRank for directed single-cell fate mapping]<br />
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|style="padding:.4em;" rowspan=1|2022/02/11<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-19<br />
|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34653365/ Single-cell analyses reveal key immune cell subsets associated with response to PD-L1 blockade in triple-negative breast cancer]<br />
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|style="padding:.4em;" rowspan=1|2022/02/04<br />
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|style="padding:.4em;"|22-18<br />
|style="padding:.4em;"|IS Choi<br />
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[https://pubmed.ncbi.nlm.nih.gov/34390642/ Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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|style="padding:.4em;" rowspan=1|2022/01/28<br />
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|style="padding:.4em;"|22-17<br />
|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34767762/ Single-cell analysis of human non-small cell lung cancer lesions refines tumor classification and patient stratification]<br />
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|style="padding:.4em;" rowspan=1|2022/01/28<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-16<br />
|style="padding:.4em;"|JH Cha <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34914499/ Pan-cancer single-cell landscape of tumor-infiltrating T cells]<br />
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|style="padding:.4em;" rowspan=1|2022/01/14<br />
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|style="padding:.4em;"|22-15<br />
|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34597583/ Atlas of clinically distinct cell states and ecosystems across human solid tumors]<br />
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|style="padding:.4em;" rowspan=1|2022/01/07<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-14<br />
|style="padding:.4em;"|SB Baek <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34489465/ Single-cell ATAC and RNA sequencing reveal pre-existing and persistent cells associated with prostate cancer relapse]<br />
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|+style="text-align:left;font-size:12pt" | 2022-Microbiome<br />
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|style="padding:.4em;" rowspan=1|2022/04/1<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-13<br />
|style="padding:.4em;"|SH Ahn <br />
|style="padding:.4em;text-align:left"|<br />
[https://journals.asm.org/doi/10.1128/mSystems.00252-19 Comprehensive Analysis Reveals the Evolution and Pathogenicity of Aeromonas, Viewed from Both Single Isolated Species and Microbial Communities]<br />
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|style="padding:.4em;" rowspan=1|2022/03/25<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-12<br />
|style="padding:.4em;"|HJ Kim <br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-022-02610-4 AGAMEMNON: an Accurate metaGenomics And MEtatranscriptoMics quaNtificatiON analysis suite]<br />
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|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-11<br />
|style="padding:.4em;"|JH Cha <br />
|style="padding:.4em;text-align:left"|<br />
[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-020-02200-2 Metapangenomics of the oral microbiome provides insights into habitat adaptation and cultivar diversity]<br />
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|style="padding:.4em;" rowspan=1|2022/03/04<br />
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|style="padding:.4em;"|22-10<br />
|style="padding:.4em;"|JY Ma <br />
|style="padding:.4em;text-align:left"|<br />
[https://genomemedicine.biomedcentral.com/articles/10.1186/s13073-022-01011-3 Microbiota of the prostate tumor environment investigated by whole-transcriptome profiling]<br />
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|style="padding:.4em;" rowspan=1|2022/02/25<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-9<br />
|style="padding:.4em;"|NY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-021-02576-9 Species-resolved sequencing of low-biomass or degraded microbiomes using 2bRAD-M]<br />
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|style="padding:.4em;" rowspan=1|2022/02/18<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-8<br />
|style="padding:.4em;"|SH Lee <br />
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[https://pubmed.ncbi.nlm.nih.gov/34893089/ Microbial co-occurrence complicates associations of gut microbiome with US immigration, dietary intake and obesity]<br />
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|style="padding:.4em;"|22-7<br />
|style="padding:.4em;"|SH Ahn <br />
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[https://pubmed.ncbi.nlm.nih.gov/34517888/ Gut microbial determinants of clinically important improvement in patients with rheumatoid arthritis]<br />
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|style="padding:.4em;" rowspan=1|2022/02/04<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-6<br />
|style="padding:.4em;"|JH Cha <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34880502/ Gut microbiota modulates weight gain in mice after discontinued smoke exposure]<br />
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|style="padding:.4em;" rowspan=1|2022/01/28<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-5<br />
|style="padding:.4em;"|JY Ma <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34819672/ The human microbiome encodes resistance to the antidiabetic drug acarbose]<br />
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|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-4<br />
|style="padding:.4em;"|SH Lee <br />
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[https://pubmed.ncbi.nlm.nih.gov/34618582/ Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis]<br />
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|style="padding:.4em;" rowspan=1|2022/01/14<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-3<br />
|style="padding:.4em;"|HJ Kim <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34551799/ The influence of the gut microbiome on BCG-induced trained immunity]<br />
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|style="padding:.4em;" rowspan=1|2022/01/07<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-2<br />
|style="padding:.4em;"|JY Ma <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34912116/ Towards the biogeography of prokaryotic genes]<br />
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|style="padding:.4em;" rowspan=1|2022/01/07<br />
|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-1<br />
|style="padding:.4em;"|NY Kim <br />
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[https://pubmed.ncbi.nlm.nih.gov/29347966/ ReprDB and panDB: minimalist databases with maximal microbial representation]<br />
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{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2021-2nd semester<br />
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|style="padding:.4em;" rowspan=1|2021/11/23<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-39<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.cell.com/cell/fulltext/S0092-8674(21)00942-9#secsectitle0025 Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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|style="padding:.4em;" rowspan=1|2021/11/16<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-38<br />
|style="padding:.4em;"|SB Back<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/2021.02.09.430114v2 Single-cell ATAC and RNA sequencing reveal pre-existing and persistent subpopulations of cells associated with relapse of prostate cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/11/09<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-37<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/2021.03.16.435578v1 Integrated single-cell transcriptomics and epigenomics reveals strong germinal center-associated etiology of autoimmune risk loci]<br />
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|style="padding:.4em;" rowspan=1|2021/11/02<br />
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|style="padding:.4em;"|21-36<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.biorxiv.org/content/10.1101/2021.07.28.453784v1 Functional Inference of Gene Regulation using Single-Cell Multi-Omics]<br />
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|style="padding:.4em;" rowspan=1|2021/10/26<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-35<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/2021.03.24.436532v1 Single-cell analyses reveal a continuum of cell state and composition changes in the malignant transformation of polyps to colorectal cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/10/19<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-34<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.cell.com/cancer-cell/fulltext/S1535-6108(21)00165-3 Single-cell sequencing links multiregional immune landscapes and tissue-resident T cells in ccRCC to tumor topology and therapy efficacy]<br />
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|style="padding:.4em;"|21-33<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S1535610821001173 Tumor and immune reprogramming during immunotherapy in advanced renal cell carcinoma]<br />
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|style="padding:.4em;" rowspan=1|2021/09/28<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-32<br />
|style="padding:.4em;"|SB Baek<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S1074761321001199 Single-cell chromatin accessibility landscape identifies tissue repair program in human regulatory T cells]<br />
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|style="padding:.4em;" rowspan=1|2021/09/14<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-31<br />
|style="padding:.4em;"|IS Choi <br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41591-021-01232-w Identification of resistance pathways and therapeutic targets in relapsed multiple myeloma patients through single-cell sequencing]<br />
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|style="padding:.4em;" rowspan=1|2021/09/07<br />
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|style="padding:.4em;"|21-30<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41591-021-01323-8 A single-cell map of intratumoral changes during anti-PD1 treatment of patients with breast cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/08/31<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-29<br />
|style="padding:.4em;"|IS Choi <br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/abs/pii/S0092867420316135 Single-cell landscape of the ecosystem in early-relapse hepatocellular carcinoma]<br />
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|style="padding:.4em;" rowspan=1|2021/08/24<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-28<br />
|style="padding:.4em;"|SB Baek<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41586-021-03552-w Interpreting type 1 diabetes risk with genetics and single-cell epigenomics]<br />
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|+style="text-align:left;font-size:12pt" | 2021-1st semester<br />
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!scope="col" style="padding:.4em" |Date<br />
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|style="padding:.4em;" rowspan=2|2021/06/03<br />
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|style="padding:.4em;"|21-27<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867421000726 Massive expansion of human gut bacteriophage diversity]<br />
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|style="padding:.4em;"|21-26<br />
|style="padding:.4em;"|JY Ma<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312821001451 The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition]<br />
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|style="padding:.4em;" rowspan=1|2021/05/27<br />
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|style="padding:.4em;"|21-25<br />
|style="padding:.4em;"|JK Yoon<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820306703?dgcid=rss_sd_all Methotrexate impacts conserved pathways in diverse human gut bacteria leading to decreased host immune activation]<br />
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|style="padding:.4em;" rowspan=2|2021/05/20<br />
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|style="padding:.4em;"|21-24<br />
|style="padding:.4em;"|NY Kim<br />
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[https://science.sciencemag.org/content/366/6471/eaax9176 A metagenomic strategy for harnessing the chemical repertoire of the human microbiome]<br />
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|style="padding:.4em;"|21-23<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.nature.com/articles/s41467-019-10927-1 Predictive metabolomic profiling of microbial communities using amplicon or metagenomic sequences]<br />
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|style="padding:.4em;" rowspan=2|2021/05/13<br />
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|style="padding:.4em;"|21-22<br />
|style="padding:.4em;"|SA Kim<br />
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[https://www.nature.com/articles/s41564-018-0306-4 Gut microbiome structure and metabolic activity in inflammatory bowel disease]<br />
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|style="padding:.4em;"|21-21<br />
|style="padding:.4em;"|HJ Kim<br />
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[https://www.nature.com/articles/s41591-020-01183-8 Microbiome connections with host metabolism and habitual diet from 1,098 deeply phenotyped individuals]<br />
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|style="padding:.4em;" rowspan=2|2021/05/06<br />
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|style="padding:.4em;"|21-20<br />
|style="padding:.4em;"|JY Ma<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41467-020-18476-8 A predictive index for health status using species-level gut microbiome profiling]<br />
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|style="padding:.4em;"|21-19<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41586-019-1237-9 Multi-omics of the gut microbial ecosystem in inflammatory bowel diseases]<br />
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|style="padding:.4em;" rowspan=2|2021/04/29<br />
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|style="padding:.4em;"|21-18<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.nature.com/articles/s41467-021-21475-y Gastrointestinal microbiota composition predicts peripheral inflammatory state during treatment of human tuberculosis]<br />
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|style="padding:.4em;"|21-17<br />
|style="padding:.4em;"|SR You<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820301694 Structure of the Mucosal and Stool Microbiome in Lynch Syndrome]<br />
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|style="padding:.4em;"|HH Eom<br />
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[https://science.sciencemag.org/content/369/6506/936 Cross-reactivity between tumor MHC class 1-restricted antigens and an enterococcal bacteriophage]<br />
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|style="padding:.4em;"|21-15<br />
|style="padding:.4em;"|JH Park<br />
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[https://www.nature.com/articles/s41564-020-00831-6 Bifidobacterium bifidum strains synergize with immune checkpoint inhibitors to reduce tumour burden in mice]<br />
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|style="padding:.4em;" rowspan=1|2021/04/15<br />
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|style="padding:.4em;"|21-14<br />
|style="padding:.4em;"|MH Lee<br />
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[https://www.nature.com/articles/s41591-020-01223-3 The gut microbiome modulates the protective association between a Mediterranean diet and cardiometabolic disease risk]<br />
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|style="padding:.4em;" rowspan=1|2021/04/08<br />
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|style="padding:.4em;"|21-13<br />
|style="padding:.4em;"|YY Jang<br />
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[https://www.nature.com/articles/s41467-019-14177-z Impact of commonly used drugs on the composition and metabolic function of the gut microbiota]<br />
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|style="padding:.4em;"|21-12<br />
|style="padding:.4em;"|NY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420305638 Personalized Mapping of Drug Metabolism by the Human Gut Microbiome]<br />
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|style="padding:.4em;"|21-11<br />
|style="padding:.4em;"|JM Lee<br />
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[https://www.cell.com/fulltext/S0092-8674(17)30107-1 Mining the Human Gut Microbiota for Immunomodulatory Organisms]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://www.nature.com/articles/s41586-020-2095-1 Microbiome analyses of blood and tissues suggest cancer diagnostic approach]<br />
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|style="padding:.4em;"|21-9<br />
|style="padding:.4em;"|JH Cha<br />
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[https://science.sciencemag.org/content/368/6494/973 The human tumor microbiome is composed of tumor type-specific intracellular bacteria]<br />
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|style="padding:.4em;"|IS Choi<br />
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[https://www.nature.com/articles/s41590-020-0784-4 Functional CRISPR dissection of gene networks controlling human regulatory T cell identity]<br />
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|style="padding:.4em;"|21-7<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420306887 Molecular Pathways of Colon Inflammation Induced by Cancer Immunotherapy]<br />
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|style="padding:.4em;"|SB Baek<br />
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[https://www.nature.com/articles/s41588-020-00721-x Single-cell epigenomic analyses implicate candidate causal variants at inherited risk loci for Alzheimer’s and Parkinson’s diseases]<br />
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|style="padding:.4em;"|21-5<br />
|style="padding:.4em;"|IS Choi <br />
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[https://www.nature.com/articles/s41467-020-14766-3 Trajectory-based differential expression analysis for single-cell sequencing data]<br />
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|style="padding:.4em;" rowspan=2|Single-cell<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://www.nature.com/articles/s41588-018-0156-2 Genetic determinants of co-accessible chromatin regions in activated T cells across humans]<br />
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|style="padding:.4em;"|21-3<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S009286742030341X Single-Cell Analyses Inform Mechanisms of Myeloid-Targeted Therapies in Colon Cancer]<br />
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|style="padding:.4em;" rowspan=2|2021/02/01<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|21-2<br />
|style="padding:.4em;"|JW Cho<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419308967?via%3Dihub Single-Cell Analysis of Crohn's Disease Lesions Identifies a Pathogenic Cellular Module Associated with Resistance to Anti-TNF Therapy]<br />
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|style="padding:.4em;"|21-1<br />
|style="padding:.4em;"|JW Cho<br />
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[https://www.nature.com/articles/s41467-020-15956-9 Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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[https://pubmed.ncbi.nlm.nih.gov/32393797/ Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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|style="padding:.4em;"|20-14<br />
|style="padding:.4em;"|JW Choi<br />
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[https://pubmed.ncbi.nlm.nih.gov/30595452/ Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment Within Human Melanoma]<br />
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|style="padding:.4em;"|20-13<br />
|style="padding:.4em;"|JW Seo<br />
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[https://pubmed.ncbi.nlm.nih.gov/30388455/ A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
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|style="padding:.4em;" rowspan=2|2020/06/09<br />
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|style="padding:.4em;"|20-12<br />
|style="padding:.4em;"|JY Lee<br />
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[https://pubmed.ncbi.nlm.nih.gov/31974247/ Single-cell Transcriptional Diversity Is a Hallmark of Developmental Potential]<br />
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|style="padding:.4em;"|20-11<br />
|style="padding:.4em;"|JH Kim<br />
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[https://pubmed.ncbi.nlm.nih.gov/31675496/ Landscape and Dynamics of Single Immune Cells in Hepatocellular Carcinoma]<br />
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|style="padding:.4em;" rowspan=2|2020/06/02<br />
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|style="padding:.4em;"|20-10<br />
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[https://pubmed.ncbi.nlm.nih.gov/32103181/ Peripheral T Cell Expansion Predicts Tumour Infiltration and Clinical Response]<br />
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|style="padding:.4em;"|20-9<br />
|style="padding:.4em;"|KH Hong<br />
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[https://pubmed.ncbi.nlm.nih.gov/30388456/ Defining T Cell States Associated With Response to Checkpoint Immunotherapy in Melanoma]<br />
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|style="padding:.4em;"|JY Seong<br />
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[https://pubmed.ncbi.nlm.nih.gov/31915379/ Rapid Non-Uniform Adaptation to Conformation-Specific KRAS(G12C) Inhibition]<br />
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|style="padding:.4em;"|20-7<br />
|style="padding:.4em;"|OY Min<br />
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[https://pubmed.ncbi.nlm.nih.gov/31959990/ Targeted Therapy Guided by Single-Cell Transcriptomic Analysis in Drug-Induced Hypersensitivity Syndrome: A Case Report]<br />
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|style="padding:.4em;" rowspan=2|2020/05/19<br />
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|style="padding:.4em;"|20-6<br />
|style="padding:.4em;"|SN Lee<br />
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[https://pubmed.ncbi.nlm.nih.gov/32066951/ Distinct Microbial and Immune Niches of the Human Colon]<br />
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|style="padding:.4em;"|20-5<br />
|style="padding:.4em;"|DJ Park<br />
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[https://pubmed.ncbi.nlm.nih.gov/31375813/ Massively Parallel Single-Cell Chromatin Landscapes of Human Immune Cell Development and Intratumoral T Cell Exhaustion]<br />
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|style="padding:.4em;" rowspan=2|2020/05/12<br />
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|style="padding:.4em;"|20-4<br />
|style="padding:.4em;"|SY Park<br />
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[https://pubmed.ncbi.nlm.nih.gov/29434354/ Single-cell Gene Expression Reveals a Landscape of Regulatory T Cell Phenotypes Shaped by the TCR]<br />
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|style="padding:.4em;"|20-3<br />
|style="padding:.4em;"|NY Kim<br />
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[https://pubmed.ncbi.nlm.nih.gov/30078704/ A Single-Cell Atlas of In Vivo Mammalian Chromatin Accessibility]<br />
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|style="padding:.4em;" rowspan=2|2020/04/28<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|20-2<br />
|style="padding:.4em;"|SB Baek<br />
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[https://pubmed.ncbi.nlm.nih.gov/32014031/ scAI: An Unsupervised Approach for the Integrative Analysis of Parallel Single-Cell Transcriptomic and Epigenomic Profiles]<br />
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|style="padding:.4em;"|20-1<br />
|style="padding:.4em;"|JH Cha<br />
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[https://pubmed.ncbi.nlm.nih.gov/31792411/ Single-cell Multiomic Analysis Identifies Regulatory Programs in Mixed-Phenotype Acute Leukemia]<br />
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{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2019-2nd semester<br />
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|style="padding:.4em;" rowspan=2|2019/10/15<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-51<br />
|style="padding:.4em;"|CY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312819303488 Obese Individuals with and without Type 2 Diabetes Show Different Gut Microbial Functional Capacity and Composition]<br />
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|style="padding:.4em;"|19-50<br />
|style="padding:.4em;"|SH Lee<br />
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[https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-019-0722-6 Clustering co-abundant genes identifies components of the gut microbiome that are reproducibly associated with colorectal cancer and inflammatory bowel disease]<br />
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|style="padding:.4em;" rowspan=2|2019/10/08<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-49<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.nature.com/articles/s41587-019-0206-z Massively parallel single-cell chromatin landscapes of human immune cell development and intratumoral T cell exhaustion]<br />
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|style="padding:.4em;"|19-48<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.biorxiv.org/content/10.1101/739011v1 Assessment of computational methods for the analysis of single-cell ATAC-seq data]<br />
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|style="padding:.4em;" rowspan=2|2019/10/01<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-47<br />
|style="padding:.4em;"|MY Lee<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312819303026 Meta-Analysis Reveals Reproducible Gut Microbiome Alterations in Response to a High-Fat Diet]<br />
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|style="padding:.4em;"|19-46<br />
|style="padding:.4em;"|NY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307731 Tumor Microbiome Diversity and Composition Influence Pancreatic Cancer Outcomes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/24<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-45<br />
|style="padding:.4em;"|JH Cha<br />
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[https://genome.cshlp.org/content/early/2019/04/01/gr.243725.118 The accessible chromatin landscape of the murine hippocampus at single-cell resolution]<br />
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|style="padding:.4em;"|19-44<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.sciencedirect.com/science/article/pii/S009286741830446X Integrated Single-Cell Analysis Maps the Continuous Regulatory Landscape of Human Hematopoietic Differentiation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/17<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-43<br />
|style="padding:.4em;"|SH Lee<br />
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[https://science.sciencemag.org/content/365/6449/eaau4735 A sparse covarying unit that describes healthy and impaired human gut microbiota development]<br />
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|style="padding:.4em;"|19-42<br />
|style="padding:.4em;"|CY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307810 Large-Scale Analyses of Human Microbiomes Reveal Thousands of Small, Novel Genes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/10<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-41<br />
|style="padding:.4em;"|KS Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307329?via%3Dihub Intra- and Inter-cellular Rewiring of the Human Colon during Ulcerative Colitis]<br />
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|style="padding:.4em;"|19-40<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.nature.com/articles/nbt.4042 Multiplexed droplet single-cell RNA-sequencing using natural genetic variation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/03<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-39<br />
|style="padding:.4em;"|NY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S193131281930352X?via%3Dihub The Landscape of Genetic Content in the Gut and Oral Human Microbiome]<br />
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|style="padding:.4em;"|19-38<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419307755?via%3Dihub Benchmarking Metagenomics Tools for Taxonomic Classification]<br />
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{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2019<br />
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|style="padding:.4em;" rowspan=2|2019/08/20<br />
|style="padding:.4em;"|19-37<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.biorxiv.org/content/10.1101/719088v1 Coexpression uncovers a unified single-cell transcriptomic landscape]<br />
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|style="padding:.4em;"|19-36<br />
|style="padding:.4em;"|MY Lee<br />
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[https://www.biorxiv.org/content/10.1101/586859v1 Single-cell interactomes of the human brain reveal cell-type specific convergence of brain disorders]<br />
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|style="padding:.4em;" rowspan=3|2019/08/14<br />
|style="padding:.4em;"|19-35<br />
|style="padding:.4em;"|SH Lee<br />
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[https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004075 Proportionality: a valid alternative to correlation for relative data]<br />
|-<br />
|style="padding:.4em;"|19-34<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41598-017-16520-0 propr: An R-package for Identifying Proportionally Abundant Features Using Compositional Data Analysis]<br />
|-<br />
|style="padding:.4em;"|19-33<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41591-018-0157-9 Robust prediction of response to immune checkpoint blockade therapy in metastatic melanoma]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/08/13<br />
|style="padding:.4em;"|19-32<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41592-018-0254-1 A test metric for assessing single-cell RNA-seq batch correction]<br />
|-<br />
|style="padding:.4em;"|19-31<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419305598 Comprehensive Integration of Single-Cell Data]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/08/08<br />
|style="padding:.4em;"|19-30<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418313941 Defining T Cell States Associated with Response to Checkpoint Immunotherapy in Melanoma]<br />
|-<br />
|style="padding:.4em;"|19-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831242X High-Dimensional Analysis Delineates Myeloid and Lymphoid Compartment Remodeling during Successful Immune-Checkpoint Cancer Therapy]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/08/07<br />
|style="padding:.4em;"|19-28<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/555557v1 A single-cell reference map for human blood and tissue T cell activation reveals functional states in health and disease]<br />
|-<br />
|style="padding:.4em;"|19-27<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831568X Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment within Human Melanoma]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/30<br />
|style="padding:.4em;"|19-26<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/nm.4466 High-dimensional single-cell analysis predicts response to anti-PD-1 immunotherapy]<br />
|-<br />
|style="padding:.4em;"|19-25<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418311784 A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/23<br />
|style="padding:.4em;"|19-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26006008 COMPASS identifies T-cell subsets correlated with clinical outcomes.]<br />
|-<br />
|style="padding:.4em;"|19-23<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/ncomms14825 Sensitive detection of rare disease-associated cell subsets via representation learning]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/05/30<br />
|style="padding:.4em;"|19-22<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30936547 Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer]<br />
|-<br />
|style="padding:.4em;"|19-21<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30936548 Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation]<br />
|-<br />
|style="padding:.4em;"|19-20<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30664783 Microbial network disturbances in relapsing refractory Crohn's disease.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/05/23<br />
|style="padding:.4em;"|19-19<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30867587 New insights from uncultivated genomes of the global human gut microbiome]<br />
|-<br />
|style="padding:.4em;"|19-18<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30745586 A new genomic blueprint of the human gut microbiota]<br />
|-<br />
|style="padding:.4em;"|19-17<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30661755 Extensive Unexplored Human Microbiome Diversity Revealed by Over 150,000 Genomes from Metagenomes Spanning Age, Geography, and Lifestyle.]<br />
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|style="padding:.4em;" rowspan=2|2019/05/16<br />
|style="padding:.4em;"|19-16<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29311644 Dynamics of metatranscription in the inflammatory bowel disease gut microbiome.]<br />
|-<br />
|style="padding:.4em;"|19-15<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29335555 Metatranscriptome of human faecal microbial communities in a cohort of adult men.]<br />
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|style="padding:.4em;" rowspan=2|2019/05/09<br />
|style="padding:.4em;"|19-14<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30193113 Post-Antibiotic Gut Mucosal Microbiome Reconstitution Is Impaired by Probiotics and Improved by Autologous FMT.]<br />
|-<br />
|style="padding:.4em;"|19-13<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30193112 Personalized Gut Mucosal Colonization Resistance to Empiric Probiotics Is Associated with Unique Host and Microbiome Features.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/05/02<br />
|style="padding:.4em;"|19-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30753825 Distinct Immune Cell Populations Define Response to Anti-PD-1 Monotherapy and Anti-PD-1/Anti-CTLA-4 Combined Therapy.]<br />
|-<br />
|style="padding:.4em;"|19-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30778252 Subsets of exhausted CD8+ T cells differentially mediate tumor control and respond to checkpoint blockade.]<br />
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|style="padding:.4em;" rowspan=2|2019/4/11<br />
|style="padding:.4em;"|19-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30479382 Lineage tracking reveals dynamic relationships of T cells in colorectal cancer.]<br />
|-<br />
|style="padding:.4em;"|19-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30523328 Single cell dissection of plasma cell heterogeneity in symptomatic and asymptomatic myeloma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/4/4<br />
|style="padding:.4em;"|19-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942092 Single-cell profiling of breast cancer T cells reveals a tissue-resident memory subset associated with improved prognosis.]<br />
|-<br />
|style="padding:.4em;"|19-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942094 Global characterization of T cells in non-small-cell lung cancer by single-cell sequencing]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/28<br />
|style="padding:.4em;"|19-6<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28319088 Reference component analysis of single-cell transcriptomes elucidates cellular heterogeneity in human colorectal tumors.]<br />
|-<br />
|style="padding:.4em;"|19-5<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28622514 Landscape of Infiltrating T Cells in Liver Cancer Revealed by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/3/21<br />
|style="padding:.4em;"|19-4<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29988129 Phenotype molding of stromal cells in the lung tumor microenvironment.]<br />
|-<br />
|style="padding:.4em;"|19-3-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787436 A single-cell molecular map of mouse gastrulation and early organogenesis]<br />
|-<br />
|style="padding:.4em;"|19-3<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787437 The single-cell transcriptional landscape of mammalian organogenesis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/14<br />
|style="padding:.4em;"|19-2<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29961579 Single-Cell Map of Diverse Immune Phenotypes in the Breast Tumor Microenvironment]<br />
|-<br />
|style="padding:.4em;"|19-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29198524 Single-Cell Transcriptomic Analysis of Primary and Metastatic Tumor Ecosystems in Head and Neck Cancer]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2018<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/06/14<br />
|style="padding:.4em;"|18-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+pan-cancer+analysis+of+enhancer+expression+in+nearly+9000+patient+samples A Pan-Cancer Analysis of Enhancer Expression in Nearly 9000 Patient Samples.]<br />
|-<br />
|style="padding:.4em;"|18-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Machine+learning+identifies+stemness+features+associated+with+oncogenic+dedifferentiation Machine Learning Identifies Stemness Features Associated with Oncogenic Dedifferentiation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/06/07<br />
|style="padding:.4em;"|18-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Developmental+and+oncogenic+programs+in+H3K27M+gliomas+dissected+by+single-cell+RNA-seq Developmental and oncogenic programs in H3K27M gliomas dissected by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|18-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Chemoresistance+evolution+in+triple-negative+breast+cancer+delineated+by+single-cell+sequencing Chemoresistance Evolution in Triple-Negative Breast Cancer Delineated by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/31<br />
|style="padding:.4em;"|18-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Mapping+human+pluripotent+stem+cell+differentiation+pathways+using+high+throughput+single-cell+RNA-sequencing Mapping human pluripotent stem cell differentiation pathways using high throughput single-cell RNA-sequencing.]<br />
|-<br />
|style="padding:.4em;"|18-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+single-cell+RNA-seq+survey+of+the+developmental+landscape+of+the+human+prefrontal+cortex A single-cell RNA-seq survey of the developmental landscape of the human prefrontal cortex.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/24<br />
|style="padding:.4em;"|18-6<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Single-cell+RNA+sequencing+identifies+celltype-specific+cis-eQTLs+and+co-expression+QTLs Single-cell RNA sequencing identifies celltype-specific cis-eQTLs and co-expression QTLs.]<br />
|-<br />
|style="padding:.4em;"|18-5<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=FOCS%3A+a+novel+method+for+analyzing+enhancer+and+gene+activity+patterns+infers+an+extensive+enhancer-promoter+map FOCS: a novel method for analyzing enhancer and gene activity patterns infers an extensive enhancer-promoter map.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/17<br />
|style="padding:.4em;"|18-4<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29149608 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;"|18-3<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29610481 A global transcriptional network connecting noncoding mutations to changes in tumor gene expression.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/10<br />
|style="padding:.4em;"|18-2<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Inferring+regulatory+element+landscapes+and+transcription+factor+networks+from+cancer+methylomes Inferring regulatory element landscapes and transcription factor networks from cancer methylomes.]<br />
|-<br />
|style="padding:.4em;"|18-1<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28129544 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2017<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/28<br />
|style="padding:.4em;"|17-36<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28104840 Tumor aneuploidy correlates with markers of immune evasion and with reduced response to immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-35<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27240091 Landscape of tumor-infiltrating T cell repertoire of human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/14<br />
|style="padding:.4em;"|17-34<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2015/09/01/025908 The landscape of T cell infiltration in human cancer and its association with antigen presenting gene expression.]<br />
|-<br />
|style="padding:.4em;"|17-33<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.08.052 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/07<br />
|style="padding:.4em;"|17-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.tandfonline.com/doi/full/10.1080/2162402X.2016.1253654 Identification of genetic determinants of breast cancer immune phenotypes by integrative genome-scale analysis.]<br />
|-<br />
|style="padding:.4em;"|17-31<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.03.075 Genomic Correlates of Immune-Cell Infiltrates in Colorectal Carcinoma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/31<br />
|style="padding:.4em;"|17-30<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.02.065 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|-<br />
|style="padding:.4em;"|17-29<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.019 Pan-cancer Immunogenomic Analyses Reveal Genotype-Immunophenotype Relationships and Predictors of Response to Checkpoint Blockade.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/24<br />
|style="padding:.4em;"|17-28<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.12.022 Systemic Immunity Is Required for Effective Cencer Immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-27<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.020 Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/17<br />
|style="padding:.4em;"|17-26<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.018 Host and Environmental Factors Influencing Individual Human Cytokine Responses.]<br />
|-<br />
|style="padding:.4em;"|17-25<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.017 A Functional Genomics Approach to Understand Variation in Cytokine Production in Humans.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/26<br />
|style="padding:.4em;"|17-24<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2FNMETH.4177 Pooled CRISPR screening with single-cell transcriptome readout.]<br />
|-<br />
|style="padding:.4em;"|17-23<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.039 Dissecting Immune Circuits by Linking CRISPR-Pooled Screens with Single-Cell RNA-Seq.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/12<br />
|style="padding:.4em;"|17-22<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.038 Perturb-Seq: Dissecting Molecular Circuits with Scalable Single-Cell RNA Profiling of Pooled Genetic Screens.]<br />
|-<br />
|style="padding:.4em;"|17-21<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnbt.3569 Wishbone identifies bifurcating developmental trajectories from single-cell data.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/05<br />
|style="padding:.4em;"|17-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2017/02/21/110668 Reversed graph embedding resolves complex single-cell developmental trajectories.]<br />
|-<br />
|style="padding:.4em;"|17-19<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnmeth.4150 Single-cell mRNA quantification and differential analysis with Census.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/29<br />
|style="padding:.4em;"|17-18<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.060 Single-Cell Transcriptomic Analysis Defines Heterogeneity and Transcriptional Dynamics in the Adult Neural Stem Cell Lineage.]<br />
|-<br />
|style="padding:.4em;"|17-17<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26051941 Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/22<br />
|style="padding:.4em;"|17-16<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27580035 Single-cell analysis of mixed-lineage states leading to a binary cell fate choice.]<br />
|-<br />
|style="padding:.4em;"|17-15<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27281220 Dissecting direct reprogramming from fibroblast to neuron using single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/15<br />
|style="padding:.4em;"|17-14<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1126%2Fscience.aad0501 Dissecting the multicellular ecosystem of metastatic melanoma by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|17-13<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26084335 Single-cell mRNA sequencing identifies subclonal heterogeneity in anti-cancer drug responses of lung adenocarcinoma cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/28<br />
|style="padding:.4em;"|17-12<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27824113 A Comprehensive Characterization of the Function of LincRNAs in Transcriptional Regulation Through Long-Range Chromatin Interactions.]<br />
|-<br />
|style="padding:.4em;"|17-11<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27851969 Epigenomic Deconvolution of Breast Tumors Reveals Metabolic Coupling between Constituent Cell Types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/21<br />
|style="padding:.4em;"|17-10<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/12/30/097451 Convergence of dispersed regulatory mutations predicts driver genes in prostate cancer.]<br />
|-<br />
|style="padding:.4em;"|17-09<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27723759 Chromatin structure-based prediction of recurrent noncoding mutations in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/07<br />
|style="padding:.4em;"|17-08<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/17/088286 Somatic Mutations and Neoepitope Homology in Melanomas Treated with CTLA-4 Blockade.]<br />
|-<br />
|style="padding:.4em;"|17-07<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/28/090134 Chemotherapy weakly contributes to predicted neoantigen expression in ovarian cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/31<br />
|style="padding:.4em;"|17-06<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27912059 Microbiota Diurnal Rhythmicity Programs Host Transcriptome Oscillations.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/24<br />
|style="padding:.4em;"|17-05<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27851914 Transcriptional Landscape of Human Tissue Lymphocytes Unveils Uniqueness of Tumor-Infiltrating T Regulatory Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/01/17<br />
|style="padding:.4em;"|17-04<br />
|style="padding:.4em;"|HJ Han <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/25938943 Mapping long-range promoter contacts in human cells with high-resolution capture Hi-C]<br />
|-<br />
|style="padding:.4em;"|17-03<br />
|style="padding:.4em;"|EB Kim <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27306882 CHiCAGO: robust detection of DNA looping interactions in Capture Hi-C data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/10<br />
|style="padding:.4em;"|17-02<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26527291 ZIFA: Dimensionality reduction for zero-inflated single-cell gene expression analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/03<br />
|style="padding:.4em;"|17-01<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26287467 Single-cell messenger RNA sequencing reveals rare intestinal cell types]<br />
|-<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2016<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/27<br />
|style="padding:.4em;"|2016-31<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25664528 Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/6<br />
|style="padding:.4em;"|2016-30<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26299571 Single-Cell RNA-Seq with Waterfall Reveals Molecular Cascades underlying Adult Neurogenesis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/29<br />
|style="padding:.4em;"|2016-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24658644 The dynamics and regulators of cell fate decisions are revealed by pseudotemporal ordering of single cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/22<br />
|style="padding:.4em;"|2016-28<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26887813 Classification of low quality cells from single-cell RNA-seq data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/15<br />
|style="padding:.4em;"|2016-27<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000487 Droplet barcoding for single-cell transcriptomics applied to embryonic stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/8<br />
|style="padding:.4em;"|2016-26<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000488 Highly Parallel Genome-wide Expression Profiling of Individual Cells Using Nanoliter Droplets.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/1<br />
|style="padding:.4em;"|2016-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27426982 Causal Mechanistic Regulatory Network for Glioblastoma Deciphered Using Systems Genetics Network Analysis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/25<br />
|style="padding:.4em;"|2016-24<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27549193 Comprehensive analyses of tumor immunity: implications for cancer immunotherapy.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/11<br />
|style="padding:.4em;"|2016-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=sidespread+parainflammation Widespread parainflammation in human cancer]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/27<br />
|style="padding:.4em;"|2016-22<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27535533 Analysis of protein-coding genetic variation in 60,706 humans]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/20<br />
|style="padding:.4em;"|2016-21<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
Functional characterization of somatic mutations in cancer using network-based inference of protein activity<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27322546 pubmed]<br />
[http://www.nature.com/ng/journal/v48/n8/full/ng.3593.html fulltext]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/13<br />
|style="padding:.4em;"|2016-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=exploiting+single-cell+expression+to+characterize Exploiting single-cell expression to characterize co-expression replicability.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/6<br />
|style="padding:.4em;"|2016-19<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26940869 Clonal neoantigens elicit T cell immunoreactivity and sensitivity to immune checkpoint blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/31<br />
|style="padding:.4em;"|2016-18<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27264179 A Computational Drug Repositioning Approach for Targeting Oncogenic Transcription Factors]<br />
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|style="padding:.4em;" rowspan=1|2016/8/16<br />
|style="padding:.4em;"|2016-17<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27309802 The landscape of accessible chromatin in mammalian preimplantation embryos]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/8<br />
|style="padding:.4em;"|2016-16<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27064255 Enhancer-promoter interactions are encoded by complex genomic signatures on looping chromatin]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/1<br />
|style="padding:.4em;"|2016-15<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27040498 Personalized Immunomonitoring Uncovers Molecular Networks that Stratify Lupus Patients]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/25<br />
|style="padding:.4em;"|2016-14<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=integration+of+summary+data+from+gwas+and+eqtl+studies Integration of summary data from GWAS and eQTL studies predicts complex trait gene targets]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/18<br />
|style="padding:.4em;"|2016-13<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23624555 Identification of transcriptional regulators in the mouse immune system]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/6/8<br />
|style="padding:.4em;"|2016-12<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26619012 Mapping the effects of drugs on the immune system]<br />
|-<br />
|style="padding:.4em;"| 2016-11<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26186195 Elucidating compound mechanism of action by network perturbation analysis]<br />
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|style="padding:.4em;" rowspan=2|2016/6/1<br />
|style="padding:.4em;"|2016-10<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26854917 Integrative approaches for large-scale transcriptome-wide association studies]<br />
|-<br />
|style="padding:.4em;"| 2016-9<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26950747 Tissue-specific regulatory circuits reveal variable modular perturbations across complex diseases]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/18<br />
|style="padding:.4em;"|2016-8<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27013732 Survey of variation in human transcription factors reveals prevalent DNA binding changes]<br />
|-<br />
|style="padding:.4em;"| 2016-7<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26502339 Large-scale identification of sequence variants influencing human transcription factor occupancy in vivo]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/11<br />
|style="padding:.4em;"|2016-6<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25171417 Predicting Cancer-specific vulnerability via data-driven detection of synthetic lethality]<br />
|-<br />
|style="padding:.4em;"| 2016-5<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23467089 Dynamic regulatory network controlling Th17 cell differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/4<br />
|style="padding:.4em;"|2016-4<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25853550 Characterization of the immunophenotypes and antigenomes of colorectal cancers reveals distinct tumor escape mechanisms and novel targets for immunotherapy]<br />
|-<br />
|style="padding:.4em;"| 2016-3<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26618344 Regulators of genetic risk of breast cancer identified by integrative network analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/4/27<br />
|style="padding:.4em;"|2016-2<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26780608 A predictive computational framework for direct reprogramming between human cell types]<br />
|-<br />
|style="padding:.4em;"| 2016-1<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25126793 CellNet: Network biology applied to stem cell engineering]<br />
|}<br />
<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2015<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/06/11<br />
|style="padding:.4em;"|2015-55<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/24/2/340.long Improved exome prioritization of disease genes through cross-species phenotype comparison.]<br />
|-<br />
|style="padding:.4em;"|2015-54<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0002929714001128 Phevor combines multiple biomedical ontologies for accurate identification of disease-causing alleles in single individuals and small nuclear families.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/06/04<br />
|style="padding:.4em;"|2015-53<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2656.html eXtasy: variant prioritization by genomic data fusion.]<br />
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|style="padding:.4em;"|2015-52<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/21/9/1529.long A probabilistic disease-gene finder for personal genomes.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/28<br />
|style="padding:.4em;"|2015-51<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n12/full/ng.3141.html Systematic analysis of noncoding somatic mutations and gene expression alterations across 14 tumor types.]<br />
|-<br />
|style="padding:.4em;"|2015-50<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v28/n5/full/nbt.1630.html GREAT improves functional interpretation of cis-regulatory regions.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/21<br />
|style="padding:.4em;"|2015-49<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n3/full/nmeth.2832.html Functional annotation of noncoding sequence variants.]<br />
|-<br />
|style="padding:.4em;"|2015-48<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/15/10/480 FunSeq2: A framework for prioritizing noncoding regulatory variants in cancer.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/14<br />
|style="padding:.4em;"|2015-47<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v12/n2/full/nmeth.3215.html Selecting causal genes from genome-wide association studies via functionally coherent subnetworks.]<br />
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|style="padding:.4em;"|2015-46<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2015/150119/ncomms6890/full/ncomms6890.html Biological interpretation of genome-wide association studies using predicted gene functions.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/05/07<br />
|style="padding:.4em;"|2015-45<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/140626/ncomms5212/full/ncomms5212.html Human symptoms-disease network.]<br />
|-<br />
|style="padding:.4em;"|2015-44<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413010246 A nondegenerate code of deleterious variants in Mendelian loci contributes to complex disease risk.]<br />
|-<br />
|style="padding:.4em;"|2015-43<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/347/6224/1257601.long Uncovering disease-disease relationships through the incomplete interactome.]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/04/30<br />
|style="padding:.4em;"|2015-42<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/142.long The discovery of integrated gene networks for autism and related disorders.]<br />
|-<br />
|style="padding:.4em;"|2015-41<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/12/774.long Integrated systems analysis reveals a molecular network underlying autism spectrum disorders.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/04/23<br />
|style="padding:.4em;"|2015-40<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature13990.html Dissecting neural differentiation regulatory networks through epigenetic footprinting.]<br />
|-<br />
|style="padding:.4em;"|2015-39<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14221.html Cell-of-origin chromatin organization shapes the mutational landscape of cancer.]<br />
|-<br />
|style="padding:.4em;"|2015-38<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14248.html Integrative analysis of 111 reference human epigenomes.]<br />
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|style="padding:.4em;" rowspan=2|2015/04/09<br />
|style="padding:.4em;"|2015-37<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/246.long Genome-wide analysis of local chromatin packing in Arabidopsis thaliana.]<br />
|-<br />
|style="padding:.4em;"|2015-36<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014974 A 3D map of the human genome at kilobase resolution reveals principles of chromatin looping.]<br />
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|style="padding:.4em;" rowspan=2|2015/04/02<br />
|style="padding:.4em;"|2015-35<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v14/n6/full/nrg3454.html Exploring the three-dimensional organization of genomes: interpreting chromatin interaction data.]<br />
|-<br />
|style="padding:.4em;"|2015-34<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/347/6225/1010.long Transcribed enhancers lead waves of coordinated transcription in transitioning mammalian cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/03/26<br />
|style="padding:.4em;"|2015-33<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/257.long Cupid: simultaneous reconstruction of microRNA-target and ceRNA networks.]<br />
|-<br />
|style="padding:.4em;"|2015-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/41.long Characterization of the neural stem cell gene regulatory network identifies OLIG2 as a multifunctional regulator of self-renewal.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/03/19<br />
|style="padding:.4em;"|2015-31<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.3154.html Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;"|2015-30<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v16/n3/full/nrg3833.html Computational and analytical challenges in single-cell transcriptomics.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/12<br />
|style="padding:.4em;"|2015-29<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867415000136 Extensive Strain-Level Copy-Number Variation across Human Gut Microbiome Species.]<br />
|-<br />
|style="padding:.4em;"|2015-28<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v500/n7464/full/nature12506.html Richness of human gut microbiome correlates with metabolic markers.]<br />
|-<br />
|style="padding:.4em;"|2015-27<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v490/n7418/full/nature11450.html A metagenome-wide association study of gut microbiota in type 2 diabetes.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/09<br />
|style="padding:.4em;"|2015-26<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003326 Practical guidelines for the comprehensive analysis of ChIP-seq data.]<br />
|-<br />
|style="padding:.4em;"|2015-25<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/5/777.long Patterns of regulatory activity across diverse human cell types predict tissue identity, transcription factor binding, and long-range interactions.]<br />
|-<br />
|style="padding:.4em;"|2015-24<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/11/760.long Rapid neurogenesis through transcriptional activation in human stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/02<br />
|style="padding:.4em;"|2015-23<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414011787 Genome-Scale CRISPR-Mediated Control of Gene Repression and Activation.]<br />
|-<br />
|style="padding:.4em;"|2015-22<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1004237 Integrating multiple genomic data to predict disease-causing nonsynonymous single nucleotide variants in exome sequencing studies.]<br />
|-<br />
|style="padding:.4em;"|2015-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v45/n6/full/ng.2653.html The Genotype-Tissue Expression (GTEx) project.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/24<br />
|style="padding:.4em;"|2015-20<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/346/6212/1007.long Mouse regulatory DNA landscapes reveal global principles of cis-regulatory evolution.]<br />
|-<br />
|style="padding:.4em;"|2015-19<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13985.html Principles of regulatory information conservation between mouse and human.]<br />
|-<br />
|style="padding:.4em;"|2015-18<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13972.html Conservation of trans-acting circuitry during mammalian regulatory evolution.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/16<br />
|style="padding:.4em;"|2015-17<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature13835.html Genetic and epigenetic fine mapping of causal autoimmune disease variants.]<br />
|-<br />
|style="padding:.4em;"|2015-16<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n3/full/ng.2892.html A general framework for estimating the relative pathogenicity of human genetic variants.]<br />
|-<br />
|style="padding:.4em;"|2015-15<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003825 A probabilistic model to predict clinical phenotypic traits from genome sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2015/02/02<br />
|style="padding:.4em;"|2015-14<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/22/E2329.long Relating the metatranscriptome and metagenome of the human gut.]<br />
|-<br />
|style="padding:.4em;"|2015-13<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v513/n7516/full/nature13568.html Alterations of the human gut microbiome in liver cirrhosis.]<br />
|-<br />
|style="padding:.4em;"|2015-12<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2942.html An integrated catalog of reference genes in the human gut microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-11<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2939.html Identification and assembly of genomes and genetic elements in complex metagenomic samples without using reference genomes.]<br />
|-<br />
|style="padding:.4em;" rowspan=5|2015/01/26<br />
|style="padding:.4em;"|2015-10<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/9/1/666.long Computational meta'omics for microbial community studies.]<br />
|-<br />
|style="padding:.4em;"|2015-09<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/5/7/65 Functional profiling of the gut microbiome in disease-associated inflammation.]<br />
|-<br />
|style="padding:.4em;"|2015-08<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S016895251200145X Biodiversity and functional genomics in the human microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-07<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002808 Chapter 12: Human Microbiome Analysis.]<br />
|-<br />
|style="padding:.4em;"|2015-06<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.cell.com/cell/abstract/S0092-8674%2814%2900864-2 Conducting a Microbiome Study.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/01/12<br />
|style="padding:.4em;"|2015-05<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/141210/ncomms6522/full/ncomms6522.html Small RNA changes en route to distinct cellular states of induced pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-04<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14046.html Genome-wide characterization of the routes to pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-03<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14047.html Divergent reprogramming routes lead to alternative stem-cell states.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/01/05<br />
|style="padding:.4em;"|2015-02<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/21/E2191.long Global view of enhancer-promoter interactome in human cells.]<br />
|-<br />
|style="padding:.4em;"|2015-01<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://nar.oxfordjournals.org/content/41/22/10391.long Combining Hi-C data with phylogenetic correlation to predict the target genes of distal regulatory elements in human genome.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2014<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/23<br />
|style="padding:.4em;"|2014-41<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413012270 Super-enhancers in the control of cell identity and disease.]<br />
|-<br />
|style="padding:.4em;"|2014-40<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413003929 Master transcription factors and mediator establish super-enhancers at key cell identity genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2014/12/09<br />
|style="padding:.4em;"|2014-39<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414013713 Unraveling the biology of a fungal meningitis pathogen using chemical genetics.]<br />
|-<br />
|style="padding:.4em;"|2014-38<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014226 A proteome-scale map of the human interactome network.]<br />
|-<br />
|style="padding:.4em;"|2014-37<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/9/752.long The role of the interactome in the maintenance of deleterious variability in human populations.]<br />
|-<br />
|style="padding:.4em;"|2014-36<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/342/6154/1235587.long Integrative annotation of variants from 1092 humans: application to cancer genomics.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/02<br />
|style="padding:.4em;"|2014-35<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/8/1319.long Mapping functional transcription factor networks from gene expression data.]<br />
|-<br />
|style="padding:.4em;"|2014-34<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v15/n7/full/nrg3684.html In pursuit of design principles of regulatory sequences.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/25<br />
|style="padding:.4em;"|2014-33<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/3/6/36 Epigenomics of human embryonic stem cells and induced pluripotent stem cells: insights into pluripotency and implications for disease.]<br />
|-<br />
|style="padding:.4em;"|2014-32<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S009286741300891X Developmental fate and cellular maturity encoded in human regulatory DNA landscapes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/18<br />
|style="padding:.4em;"|2014-31<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/6/8/64 The 'dnet' approach promotes emerging research on cancer patient survival.]<br />
|-<br />
|style="padding:.4em;"|2014-30<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414010368 Determination and inference of eukaryotic transcription factor sequence specificity.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/11/11<br />
|style="padding:.4em;"|2014-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/110/16/6412.long Transcription factors interfering with dedifferentiation induce cell type-specific transcriptional profiles.]<br />
|-<br />
|style="padding:.4em;"|2014-28<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009350 Dissecting engineered cell types and enhancing cell fate conversion via CellNet.]<br />
|-<br />
|style="padding:.4em;"|2014-27<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009349 CellNet: network biology applied to stem cell engineering.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/04<br />
|style="padding:.4em;"|2014-26<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009775 Predicting Cancer-Specific Vulnerability via Data-Driven Detection of Synthetic Lethality.]<br />
|-<br />
|style="padding:.4em;"|2014-25<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n9/full/nmeth.3046.html Phen-Gen: combining phenotype and genotype to analyze rare disorders.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/10/28<br />
|style="padding:.4em;"|2014-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.2877.html A community effort to assess and improve drug sensitivity prediction algorithms.]<br />
|-<br />
|style="padding:.4em;"|2014-23<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n9/full/ng.3051.html Multi-tiered genomic analysis of head and neck cancer ties TP53 mutation to 3p loss.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/30<br />
|style="padding:.4em;"|2014-22<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2651.html Network-based stratification of tumor mutations.]<br />
|-<br />
|style="padding:.4em;"|2014-21<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414001457 Synonymous mutations frequently act as driver mutations in human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/23<br />
|style="padding:.4em;"|2014-20<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003460 VarWalker: Personalized Mutation Network Analysis of Putative Cancer Genes from Next-Generation Sequencing Data.]<br />
|-<br />
|style="padding:.4em;"|2014-19<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/13/12/R124 DriverNet: uncovering the impact of somatic driver mutations on transcriptional networks in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/16<br />
|style="padding:.4em;"|2014-18<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/14/5/R52 Integrated analysis of recurrent properties of cancer genes to identify novel drivers.]<br />
|-<br />
|style="padding:.4em;"|2014-17<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/4/11/89 Improving the prediction of the functional impact of cancer mutations by baseline tolerance transformation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/02<br />
|style="padding:.4em;"|2014-16<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23228031 A network module-based method for identifying cancer prognostic signatures.]<br />
|-<br />
|style="padding:.4em;"|2014-15<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24429628 Realizing the promise of cancer predisposition genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/19<br />
|style="padding:.4em;"|2014-14<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24952901 Assessing the clinical utility of cancer genomic and proteomic data across tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-13<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24132290 Mutational landscape and significance across 12 major cancer types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/12<br />
|style="padding:.4em;"|2014-12<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23945592 Signatures of mutational processes in human cancer.]<br />
|-<br />
|style="padding:.4em;"|2014-11<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24390350 Discovery and saturation analysis of cancer genes across 21 tumour types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/05<br />
|style="padding:.4em;"|2014-10<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24084849 Comprehensive identification of mutational cancer driver genes across 12 tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-9<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24037244 IntOGen-mutations identifies cancer drivers across tumor types.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/29<br />
|style="padding:.4em;"|2014-8<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23900255 Computational approaches to identify functional genetic variants in cancer genomes.]<br />
|-<br />
|style="padding:.4em;"|2014-7<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23770567 Mutational heterogeneity in cancer and the search for new cancer-associated genes.]<br />
|-<br />
|style="padding:.4em;"|2014-6<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n4/abs/nmeth.2891.html Cancer genomes: discerning drivers from passengers]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/22<br />
|style="padding:.4em;"|2014-5<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24071849 The Cancer Genome Atlas Pan-Cancer analysis project.]<br />
|-<br />
|style="padding:.4em;"|2014-4<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23539594 Cancer genome landscapes.]<br />
|-<br />
|style="padding:.4em;"|2014-3<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=21900272 Distinguishing driver and passenger mutations in an evolutionary history categorized by interference.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/07/15<br />
|style="padding:.4em;"|2014-2<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670764 A promoter-level mammalian expression atlas.]<br />
|-<br />
|style="padding:.4em;"|2014-1<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670763 An atlas of active enhancers across human cell types and tissues.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2013<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/26<br />
|style="padding:.4em;"|2013-31<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://nar.oxfordjournals.org/content/40/16/7690.long Integration of Hi-C and ChIP-seq data reveals distinct types of chromatin linkages]<br />
|-<br />
|style="padding:.4em;"|2013-30<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n4/full/nbt.2519.html Deciphering molecular circuits from genetic variation underlying transcriptional responsiveness to stimuli]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/04<br />
|style="padding:.4em;"|2013-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|[https://www.cell.com/abstract/S0092-8674(13)00439-X Mapping the Human miRNA Interactome by CLASH Reveals Frequent Noncanonical Binding]<br />
|-<br />
|style="padding:.4em;"|2013-28<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n3/full/nbt.2514.html Sensitive detection of somatic point mutations in impure and heterogeneous cancer samples]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/28<br />
|style="padding:.4em;"|2013-27<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.pnas.org/content/102/38/13544.long Discovering statistically significant pathways in expression profiling studies]<br />
|-<br />
|style="padding:.4em;"|2013-26<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0058977 Prediction and Validation of Gene-Disease Associations Using Methods Inspired by Social Network Analyses]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/21<br />
|style="padding:.4em;"|2013-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v496/n7446/full/nature11981.html Dynamic regulatory network controlling TH17 cell differentiation]<br />
|-<br />
|style="padding:.4em;"|2013-24<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412013529 Deciphering and Prediction of Transcriptome Dynamics under Fluctuating Field Conditions]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/14<br />
|style="padding:.4em;"|2013-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412015565 Integrative eQTL-Based Analyses Reveal the Biology of Breast Cancer Risk Loci]<br />
<br />
|-<br />
|style="padding:.4em;"|2013-22<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v45/n2/full/ng.2504.html Chromatin marks identify critical cell types for fine mapping complex trait variants]<br />
|-<br />
|style="padding:.4em;" rowspan=2|'''2013/05/07'''<br />
|style="padding:.4em;"|2013-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01555-3 Genome-wide Chromatin State Transitions Associated with Developmental and Environmental Cues]<br />
|-<br />
|style="padding:.4em;"|2013-20<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1003201 Human Disease-Associated Genetic Variation Impacts Large Intergenic Non-Coding RNA Expression]<br />
|-<br />
|style="padding:.4em;"|2013/04/09<br />
|style="padding:.4em;"|2013-19<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1790.long Annotation of functional variation in personal genomes using RegulomeDB]<br />
|-<br />
|style="padding:.4em;"|2013/04/02<br />
|style="padding:.4em;"|2013-18<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1775.long The GENCODE v7 catalog of human long noncoding RNAs: Analysis of their gene structure, evolution, and expression]<br />
|-<br />
|style="padding:.4em;" |2013/03/12<br />
|style="padding:.4em;"|2013-17<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002311 Global Mapping of Cell Type–Specific Open Chromatin by FAIRE-seq Reveals the Regulatory Role of the NFI Family in Adipocyte Differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/03/05<br />
|style="padding:.4em;"|2013-16<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nrg/journal/v10/n10/full/nrg2641.html ChIP–seq: advantages and challenges of a maturing technology]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/21<br />
|style="padding:.4em;"|2013-15<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002830 Novel Modeling of Combinatorial miRNA Targeting Identifies SNP with Potential Role in Bone Density]<br />
|-<br />
|style="padding:.4em;"|2013-14<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01424-9 A Molecular Roadmap of Reprogramming Somatic Cells into iPS Cells]<br />
|-<br />
|style="padding:.4em;"|2013-13<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/6/1015.long Differential DNase I hypersensitivity reveals factor-dependent chromatin dynamics.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/15<br />
|style="padding:.4em;"|2013-12<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v43/n3/full/ng.759.html Chromatin accessibility pre-determines glucocorticoid receptor binding patterns]<br />
|-<br />
|style="padding:.4em;"|2013-11<br />
|style="padding:.4em;"| JE Shim, CY Kim <br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v30/n11/full/nbt.2422.html Interpreting noncoding genetic variation in complex traits and human disease]<br />
|-<br />
|style="padding:.4em;"|2013-10<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/21/3/447.full.pdf+html Accurate inference of transcription factor binding from DNA sequence and chromatin accessibility data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/08<br />
|style="padding:.4em;"|2013-09<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002599 Widespread Site-Dependent Buffering of Human Regulatory Polymorphism]<br />
|-<br />
|style="padding:.4em;"|2013-08<br />
|style="padding:.4em;"|JE Shim, CY Kim<br />
|style="padding:.4em;text-align:left;"|[http://genome.cshlp.org/content/22/9/1748.long Linking disease associations with regulatory information in the human genome]<br />
|-<br />
|style="padding:.4em;"|2013-07<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1658.long Understanding transcriptional regulation by integrative analysis of transcription factor binding data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/01/25<br />
|style="padding:.4em;"|2013-06<br />
|style="padding:.4em;"|HJ Han, '''JH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11279.html The long-range interaction landscape of gene promoters]<br />
|-<br />
|style="padding:.4em;"|2013-05<br />
|style="padding:.4em;"|'''ER Kim''', HS Shim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11233.html Landscape of transcription in human cells]<br />
|-<br />
|style="padding:.4em;"|2013-04<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11245.html Architecture of the human regulatory network derived from ENCODE data]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/01/18<br />
|style="padding:.4em;"|2013-03<br />
|style="padding:.4em;"|KS Kim, '''TH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11212.html An expansive human regulatory lexicon encoded in transcription factor footprints]<br />
|-<br />
|style="padding:.4em;"|2013-02<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11232.html The accessible chromatin landscape of the human genome]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/01/11<br />
|style="padding:.4em;"|2013-01<br />
|style="padding:.4em;"| '''JE Shim''', CY Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11247.html An integrated encyclopedia of DNA elements in the human genome]<br />
|}<br />
<br />
2012<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc; padding:5px;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper title<br />
|-<br />
|rowspan = "1"|2013/01/11<br />
|align ="center"|2012-81<br />
|[http://genome.cshlp.org/content/22/8/1589.full (TH Kim) MuSiC: identifying mutational significance in cancer genomes.]<br />
|-<br />
|rowspan = "1"|2012/12/04<br />
|align ="center"|2012-80<br />
|[http://genome.cshlp.org/content/22/8/1383 (CY KIM) Human genomic disease variants: A neutral evolutionary explanation]<br />
|-<br />
|rowspan = "2"|2012/11/20<br />
| align="center"|2012-79<br />
|[http://www.cell.com/abstract/S0092-8674(12)00639-3 (HS Shim) Circuitry and Dynamics of Human Transcription Factor Regulatory Networks]<br />
|-<br />
| align="center"|2012-78<br />
|[http://www.nature.com/nature/journal/v487/n7408/full/nature11288.html (HJ Kim) Interpreting cancer genomes using systematic host network perturbations by tumour virus proteins]<br />
|-<br />
|rowspan = "2"|2012/11/06<br />
| align="center"|2012-77<br />
|[http://www.sciencemag.org/content/337/6099/1190.short (HJ Han) Systematic Localization of Common Disease-Associated Variation in Regulatory DNA]<br />
|-<br />
| align="center"|2012-76<br />
|[http://www.pnas.org/cgi/doi/10.1073/pnas.1201904109 (KS Kim) A public resource facilitating clinical use of genomes] <br />
|-<br />
|rowspan = "6" |2012/07/19<br />
| align="center"|2012-75<br />
|[http://genome.cshlp.org/content/22/7/1334 (HJ Han & YH Ko) Predictive regulatory models in Drosophila melanogaster by integrative inference of transcriptional networks]<br />
|-<br />
| align="center"|2012-74 <br />
|[http://www.sciencemag.org/content/337/6090/100.full (JE Shim) An Abundance of Rare Functional Variants in 202 Drug Target Genes Sequenced in 14,002 People] <br />
|-<br />
| align="center"|2012-73<br />
|[http://www.sciencemag.org/content/337/6090/64.abstract (JE Shim) Evolution and Functional Impact of Rare Coding Variation from Deep Sequencing of Human Exomes]<br />
|-<br />
| align="center"|2012-72<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2063581/ (SH Hwang) Network-based classification of breast cancer metastasis]<br />
|-<br />
| align="center"|2012-71<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002707 (T Lee&CY Kim)Brain Expression Genome-Wide Association Study (eGWAS) Identifies Human Disease-Associated Variants]<br />
|-<br />
| align="center"|2012-70<br />
|[http://genome.cshlp.org/content/20/9/1297 (ER Kim&TH Kim)The Genome Analysis Toolkit: A MapReduce framework for analyzing next-generation DNA sequencing data]<br />
|-<br />
|rowspan = "8" |2012/07/16<br />
| align="center"|2012-69<br />
|[http://www.nature.com/ng/journal/v43/n5/full/ng.806.html (ER Kim&TH Kim)A framework for variation discovery and genotyping using next-generation DNA sequencing data]<br />
|-<br />
| align="center"|2012-66<br />
|[http://bioinformatics.oxfordjournals.org/content/25/16/2078.long (ER Kim&TH Kim)The Sequence Alignment/Map format and SAMtools]<br />
|-<br />
| align="center"|2012-65<br />
|[http://bioinformatics.oxfordjournals.org/content/early/2011/06/07/bioinformatics.btr330 (ER Kim&TH Kim)The Variant Call Format and VCFtools]<br />
|-<br />
| align="center"|2012-64<br />
|[http://www.cell.com/abstract/S0092-8674(12)00104-3 (YH Go&HJ Han)The Impact of the Gut Microbiota on Human Health: An Integrative View]<br />
|-<br />
|align="center"|2012-63<br />
|[http://www.sciencemag.org/content/336/6086/1262.abstract (T Lee&CY Kim)Host-Gut Microbiota Metabolic Interactions]<br />
|-<br />
|align="center"|2012-62<br />
|[http://www.sciencemag.org/content/336/6086/1268.full (AR Cho,JH Ju)Interactions Between the Microbiota and the Immune System]<br />
|-<br />
|align="center"|2012-61<br />
|[http://www.sciencemag.org/content/336/6086/1255.abstract (SH Hwang&HJ Cho)The Application of Ecological Theory Toward an Understanding of the Human Microbiome]<br />
|-<br />
|align="center"|2012-60<br />
|[http://stm.sciencemag.org/content/4/137/137rv5 (SH Hwang&HJ Cho)Microbiota-Targeted Therapies: An Ecological Perspective]<br />
|-<br />
|rowspan = "3" |2012/07/13<br />
|align="center"|2012-59<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002358 (JH Shin&HJ Kim)Metabolic Reconstruction for Metagenomic Data and Its Application to the Human Microbiome]<br />
|-<br />
| align="center"|2012-58<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11209.html (JH Shin&HJ Kim)A framework for human microbiome research]<br />
|-<br />
|align="center"|2012-57<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11234.html (JH Shin&HJ Kim)Structure, function and diversity of the healthy human microbiome]<br />
|-<br />
|rowspan = "4" |2012/07/12<br />
|align="center"|2012-56<br />
|[http://nar.oxfordjournals.org/content/40/D1/D957.long (AR Cho&JH Ju)COLT-Cancer: functional genetic screening resource for essential genes in human cancer cell lines]<br />
|-<br />
|align="center"|2012-55<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1002511 (YH Go&HJ Han)Google Goes Cancer: Improving Outcome Prediction for Cancer Patients by Network-Based Ranking of Marker Genes]<br />
|-<br />
| align="center"|2012-54<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201147.html (YH Go&HJ Han)A pharmacogenomic method for individualized prediction of drug sensitivity]<br />
|-<br />
|align="center"|2012-53<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10983.html (JH Soh)The genomic and transcriptomic architecture of 2,000 breast tumours reveals novel subgroups]<br />
|-<br />
|rowspan = "6" |2012/07/09<br />
|align="center"|2012-52<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11003.html (ER Kim&TH Kim)The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity]<br />
|-<br />
|align="center"|2012-51<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11005.html (ER Kim&TH Kim)Systematic identification of genomic markers of drug sensitivity in cancer cells]<br />
|-<br />
| align="center"|2012-50<br />
|[http://www.pnas.org/content/early/2011/10/13/1018854108.abstract (ER Kim&TH Kim)Subtype and pathway specific responses to anticancer compounds in breast cancer]<br />
|-<br />
|align="center"|2012-49<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10945.html (JE Shim&KS Kim)De novo mutations revealed by whole-exome sequencing are strongly associated with autism]<br />
|-<br />
|align="center"|2012-48<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature11011.html (JE Shim&KS Kim)Patterns and rates of exonic de novo mutations in autism spectrum disorders]<br />
|-<br />
|align="center"|2012-47<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10989.html (JE Shim&KS Kim)Sporadic autism exomes reveal a highly interconnected protein network of de novo mutations]<br />
|-<br />
|rowspan = "6" |2012/07/06<br />
| align="center"|2012-46<br />
|[http://www.g3journal.org/content/1/3/233.full (T Lee&CY Kim)Integrating Rare-Variant Testing, Function Prediction, and Gene Network in Composite Resequencing-Based Genome-Wide Association Studies (CR-GWAS)]<br />
|-<br />
|align="center"|2012-45<br />
|[http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1002621 (T Lee&CY Kim)Type 2 Diabetes Risk Alleles Demonstrate Extreme Directional Differentiation among Human Populations, Compared to Other Diseases]<br />
|-<br />
|align="center"|2012-44<br />
|[http://www.nature.com/nature/journal/v480/n7376/full/nature10665.html (AR Cho&JH Ju)Predicting mutation outcome from early stochastic variation in genetic interaction partners]<br />
|-<br />
|align="center"|2012-43<br />
|[http://www.sciencemag.org/content/335/6064/82 (AR Cho&JH Ju)Fitness Trade-Offs and Environmentally Induced Mutation Buffering in Isogenic C. elegans]<br />
|-<br />
| align="center"|2012-42<br />
|[http://genome.cshlp.org/content/22/6/1163 (JE Shim&KS Kim)Identification of microRNA-regulated gene networks by expression analysis of target genes]<br />
|-<br />
|align="center"|2012-41<br />
|[http://www.nature.com/ng/journal/v44/n6/full/ng.2303.html (JE Shim&KS Kim)Exome sequencing and the genetic basis of complex traits]<br />
|-<br />
|rowspan = "6" |2012/07/02<br />
|align="center"|2012-40<br />
|[http://www.cell.com/abstract/S0092-8674(12)00573-9 (JH Soh)Functional Repurposing Revealed by Comparing S. pombe and S. cerevisiae Genetic Interactions]<br />
|-<br />
|align="center"|2012-39<br />
|[http://genome.cshlp.org/content/22/2/375.long (ER Kim&TH Kim)De novo discovery of mutated driver pathways in cancer]<br />
|-<br />
| align="center"|2012-38<br />
|[http://www.nature.com/msb/journal/v4/n1/full/msb20082.html (YH Go&HJ Han)A systems biology approach to prediction of oncogenes and molecular perturbation targets in B-cell lymphomas]<br />
|-<br />
|align="center"|2012-37<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201126.html (SH Hwang&HJ Cho)PREDICT: a method for inferring novel drug indications with application to personalized medicine]<br />
|-<br />
|align="center"|2012-36<br />
|[http://www.nature.com/nature/journal/v453/n7198/full/nature06973.html (SH Hwang&HJ Cho)Synergistic response to oncogenic mutations defines gene class critical to cancer phenotype]<br />
|-<br />
|align="center"|2012-35<br />
|[http://www.sciencemag.org/content/334/6062/1518.full (JH Shin&HJ Kim)Detecting Novel Associations in Large Data Sets]<br />
|-<br />
|rowspan = "3" |2012/03/05<br />
| align="center"|2012-34<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|align="center"|2012-33<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|align="center"|2012-32<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |2012/02/27<br />2012/02/28<br />
| align="center"|2012-31<br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|align="center"|2012-30<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|align="center"|2012-29<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|align="center"|2012-28<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|align="center"|2012-27<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|align="center"|2012-26<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|align="center"|2012-25<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |2012/02/06<br />
| align="center"|2012-24<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|align="center"|2012-23<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|align="center"|2012-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|align="center"|2012-21<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|align="center"|2012-20<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |2012/01/30<br />
|align="center"|2012-19<br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|align="center"|2012-18<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|align="center"|2012-17<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|align="center"|2012-16<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|align="center"|2012-15<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />
|align="center"|2012-14<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|align="center"|2012-13<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|align="center"|2012-12<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |2012/01/09<br />2012/01/16<br />
| align="center"|2012-11<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|align="center"|2012-10<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|align="center"|2012-09<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|align="center"|2012-08<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|align="center"|2012-07<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|align="center"|2012-06<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-05<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|align="center"|2012-04<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|align="center"|2012-03<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-02<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|align="center"|2012-01<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|}<br />
2011<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "6" |2011/11/28<br />
|align="center"|2011-49<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|align="center"|2011-48<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|align="center"|2011-47<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|align="center"|2011-46<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|align="center"|2011-45<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|align="center"|2011-44<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" |2011/11/14<br />
|align="center"|2011-43<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|align="center"|2011-42<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|align="center"|2011-41<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" |2011/11/07<br />
|align="center"|2011-40<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|align="center"|2011-39<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|align="center"|2011-38<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|align="center"|2011-37<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" |2011/11/07 <br />
|align="center"|2011-36<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|align="center"|2011-35<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|align="center"|2011-34<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" |2011/10/05<br />
|align="center"|2011-33<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|align="center"|2011-32<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|align="center"|2011-31<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |2011/10/04<br />
|align="center"|2011-30<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|align="center"|2011-29<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|align="center"|2011-28<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|align="center"|2011-27<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |2011/09/19<br />
|align="center"|2011-26<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|align="center"|2011-25<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" |2011/09/05<br />
|align="center"|2011-24<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|align="center"|2011-23<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" |2011/09/22 <br />
|align="center"|2011-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|align="center"|2011-21<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|2011/06/20<br />
|align="center"|2011-20<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |2011/03/30<br />
|align="center"|2011-19<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|align="center"|2011-18<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
|rowspan = "2" |2011/03/16<br />
|align="center"|2011-17<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|align="center"|2011-16<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |2011/04/25<br />
|align="center"|2011-15<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|align="center"|2011-14<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|align="center"|2011-13<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |2011/04/11<br />
|align="center"|2011-12<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|align="center"|2011-11<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|2011/03/28<br />
|align="center"|2011-10<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|align="center"|2011-09<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|2011/03/14<br />
|align="center"|2011-08<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|align="center"|2011-07<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
|rowspan = "2"|2011/02/28<br />
|align="center"|2011-06<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|align="center"|2011-05<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|2011/02/21<br />
|align="center"|2011-04<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|2011/02/14<br />
|align="center"|2011-03<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|2011/01/31<br />
|align="center"|2011-02<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|align="center"|2011-01<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|}<br />
2010<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "2"|2010/12/27<br />
|align="center"|2010-29<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|align="center"|2010-28<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|2010/11/15<br />
|align="center"|2010-27<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|align="center"|2010-26<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|2010/11/01<br />
|align="center"|2010-25<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|align="center"|2010-24<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|2010/10/11<br />
|align="center"|2010-23<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|rowspan = "2"|2010/09/13<br />
|align="center"|2010-22<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
|-<br />
|align="center"|2010-21<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|2010/05/26<br />
|align="center"|2010-20<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|2010/05/19<br />
|align="center"|2010-19<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|2010/04/21<br />
|align="center"|2010-18<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|2010/04/14<br />
|align="center"|2010-17<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |2010/04/07<br />
|align="center"|2010-16<br />
|[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|align="center"|2010-15<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|rowspan="2"|2010/03/31<br />
|align="center"|2010-14<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
|-<br />
|align="center"|2010-13<br />
|[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|2010/03/24<br />
|align="center"|2010-12<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|2010/01/18<br />
|align="center"|2010-11<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|2010/01/16<br />
|align="center"|2010-10<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|2010/01/15<br />
|align="center"|2010-09<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|2010/01/14<br />
|align="center"|2010-08<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|2010/01/13<br />
|align="center"|2010-07<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|2010/01/12<br />
|align="center"|2010-06<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|2010/01/11<br />
|align="center"|2010-05<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|2010/01/09<br />
|align="center"|2010-04<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|2010/01/08<br />
|align="center"|2010-03<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|2010/01/07<br />
|align="center"|2010-02<br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|2010/01/06<br />
|align="center"|2010-01<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
<br />
<br />
<br />
<br />
<!--<br />
{| border ="1"<br />
{| border ="1"<br />
|rowspan = "3" |<br />
|rowspan = "3" |March 5 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |***<br />
|rowspan = "7" |February 27 Mon~28 Tue, 2012<br />
|rowspan = "7" | <br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |February 6 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |January 30 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "6" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "2" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |November 28 Mon, 2011<br />
|rowspan = "6" | TY Oh, <br><br />
SH Hwang, <br><br />
JE Shim, <br><br />
S Beck, <br><br />
JH Shin<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 14 Mon, 2011<br />
|rowspan = "3" | HH Kim & AR Cho<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" | <br />
|rowspan = "4" |November 7 Mon, 2011<br />
|rowspan = "4" | YH Ko<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 7 Mon, 2011<br />
|rowspan = "3" | JW Song<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |October 5 Mon, 2011<br />
|rowspan = "3" | HH Kim<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |<br />
|rowspan = "4" |October 4 Mon, 2011<br />
|rowspan = "4" | S Beck<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |September 19 Mon, 2011<br />
|rowspan = "2" | TY Oh<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" |September 5 Mon, 2011<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|SH Hwang<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" | August 22 Mon, 2011<br />
|ER Kim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|<br />
|June 20 Mon, 2011<br />
|JH Shin<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 30 Mon, 2011<br />
|rowspan = "2" | HH Kim<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 16 Mon, 2011<br />
|rowspan = "2" | AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |April 25 Mon, 2011<br />
|rowspan = "3" |S Beck<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 11 Mon, 2011<br />
|JE Shim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|T Lee<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 28 Mon, 2011<br />
|rowspan = "2"|TY Oh<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 14 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
<br />
|rowspan = "2"|<br />
|rowspan = "2"|February 28 Mon, 2011<br />
|KS Kim<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|HJ Han<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|<br />
|February 21 Mon, 2011<br />
|MH Lee<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|<br />
|February 14 Mon, 2011<br />
|AR Cho<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|January 31 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2" | December 27 Mon, 2010<br />
|ER Kim<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 15 Mon, 2010<br />
|AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 1 Mon, 2010<br />
|HH Kim<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|JH Shin<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|<br />
|October 11 Mon, 2010<br />
|JE Shim<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|<br />
|September 13 Mon, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|<br />
|May 26 Wed, 2010<br />
|AR Cho<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|<br />
|May 19 Wed, 2010<br />
|SG Ji<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|<br />
|April 21 Wed, 2010<br />
|JH Shin<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|<br />
|April 14 Wed, 2010<br />
|TY Oh<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 7 Wed, 2010<br />
|HHkim<br />
|<br />
[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|T Lee<br />
|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|<br />
|Mar 31 Wed, 2010<br />
|JE Shim<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|<br />
|Mar 24 Wed, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|<br />
|Jan 18 Mon, 2010<br />
|TY Oh(T Lee)<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|<br />
|Jan 16 Sat, 2010<br />
|JE Shim(MH Lee)<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|<br />
|Jan 15 Fri, 2010<br />
|SG Ji<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|<br />
|Jan 14 Thu, 2010<br />
|HH kim<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|<br />
|Jan 13 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|<br />
|Jan 12 Tue, 2010<br />
|TY Oh(T Lee)<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|<br />
|Jan 11 Mon, 2010<br />
|JE Shim(MH Lee)<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|<br />
|Jan 09 Sat, 2010<br />
|SG Ji<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|<br />
|Jan 08 Fri, 2010<br />
|AR Cho<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|<br />
|Jan 07 Thu, 2010<br />
|HH Kim <br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|<br />
|Jan 06 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
--></div>
Choiismath
https://netbiolab.org/w/Journal_Club
Journal Club
2022-03-17T14:42:55Z
<p>Choiismath: </p>
<hr />
<div>{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2022-1st semester scOmics<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
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|style="padding:.4em;"|22-1-15<br />
|style="padding:.4em;"|IS Choi<br />
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[https://doi.org/10.1101/2022.02.05.479217 Biologically informed deep learning to infer gene program activity in single cells]<br />
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|style="padding:.4em;"|22-1-14<br />
|style="padding:.4em;"|SB Baek<br />
|style="padding:.4em;text-align:left"|<br />
[https://doi.org/10.1101/2021.10.17.464750 SIMBA: SIngle-cell eMBedding Along with features]<br />
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|style="padding:.4em;" rowspan=1|2022/06/03<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-1-13<br />
|style="padding:.4em;"|JH Cha<br />
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[https://pubmed.ncbi.nlm.nih.gov/34462589/ Mapping single-cell data to reference atlases by transfer learning]<br />
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|style="padding:.4em;"|22-1-12<br />
|style="padding:.4em;"|JW Yu<br />
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[https://doi.org/10.1101/2021.10.31.466532 Pan-cancer mapping of single T cell profiles reveals a TCF1:CXCR6-CXCL16 regulatory axis essential for effective anti-tumor immunity]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://doi.org/10.1016/j.patter.2022.100443 EMBEDR: Distinguishing signal from noise in single-cell omics data]<br />
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|style="padding:.4em;"|IS Choi <br />
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[https://pubmed.ncbi.nlm.nih.gov/34845454/ Identifying disease-critical cell types and cellular processes across the human body by integration of single-cell profiles and human genetics]<br />
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|style="padding:.4em;"|22-1-9<br />
|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34675423/ Co-varying neighborhood analysis identifies cell populations associated with phenotypes of interest from single-cell transcriptomics]<br />
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|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34426704/ Integrating T cell receptor sequences and transcriptional profiles by clonotype neighbor graph analysis (CoNGA)]<br />
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|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34986867/ Hepatocellular carcinoma patients with high circulating cytotoxic T cells and intra-tumoral immune signature benefit from pembrolizumab: results from a single-arm phase 2 trial]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/35199064/ Effect of imputation on gene network reconstruction from single-cell RNA-seq data]<br />
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|style="padding:.4em;"|IS Choi <br />
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[https://pubmed.ncbi.nlm.nih.gov/35105355/ Diagnostic Evidence GAuge of Single cells (DEGAS): a flexible deep transfer learning framework for prioritizing cells in relation to disease]<br />
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[https://pubmed.ncbi.nlm.nih.gov/35172892/ Integrating single-cell sequencing data with GWAS summary statistics reveals CD16+monocytes and memory CD8+T cells involved in severe COVID-19]<br />
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|style="padding:.4em;"|22-1-3<br />
|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34663807/ Single cell T cell landscape and T cell receptor repertoire profiling of AML in context of PD-1 blockade therapy]<br />
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|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34594031/ Systematic investigation of cytokine signaling activity at the tissue and single-cell levels]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34852236/ Neoantigen-driven B cell and CD4 T follicular helper cell collaboration promotes anti-tumor CD8 T cell responses]<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34930412/ MultiMAP: dimensionality reduction and integration of multimodal data]<br />
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|style="padding:.4em;"|IS Choi <br />
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[https://www.biorxiv.org/content/10.1101/2020.10.19.345983v2 CellRank for directed single-cell fate mapping]<br />
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[https://pubmed.ncbi.nlm.nih.gov/34653365/ Single-cell analyses reveal key immune cell subsets associated with response to PD-L1 blockade in triple-negative breast cancer]<br />
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[https://pubmed.ncbi.nlm.nih.gov/34390642/ Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34767762/ Single-cell analysis of human non-small cell lung cancer lesions refines tumor classification and patient stratification]<br />
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|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34914499/ Pan-cancer single-cell landscape of tumor-infiltrating T cells]<br />
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|style="padding:.4em;"|22-15<br />
|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34597583/ Atlas of clinically distinct cell states and ecosystems across human solid tumors]<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34489465/ Single-cell ATAC and RNA sequencing reveal pre-existing and persistent cells associated with prostate cancer relapse]<br />
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|style="padding:.4em;"|22-13<br />
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[https://journals.asm.org/doi/10.1128/mSystems.00252-19 Comprehensive Analysis Reveals the Evolution and Pathogenicity of Aeromonas, Viewed from Both Single Isolated Species and Microbial Communities]<br />
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|style="padding:.4em;"|22-12<br />
|style="padding:.4em;"|HJ Kim <br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-022-02610-4 AGAMEMNON: an Accurate metaGenomics And MEtatranscriptoMics quaNtificatiON analysis suite]<br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-020-02200-2 Metapangenomics of the oral microbiome provides insights into habitat adaptation and cultivar diversity]<br />
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[https://genomemedicine.biomedcentral.com/articles/10.1186/s13073-022-01011-3 Microbiota of the prostate tumor environment investigated by whole-transcriptome profiling]<br />
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|style="padding:.4em;"|NY Kim <br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-021-02576-9 Species-resolved sequencing of low-biomass or degraded microbiomes using 2bRAD-M]<br />
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|style="padding:.4em;"|22-8<br />
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[https://pubmed.ncbi.nlm.nih.gov/34893089/ Microbial co-occurrence complicates associations of gut microbiome with US immigration, dietary intake and obesity]<br />
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|style="padding:.4em;"|22-7<br />
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[https://pubmed.ncbi.nlm.nih.gov/34517888/ Gut microbial determinants of clinically important improvement in patients with rheumatoid arthritis]<br />
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|style="padding:.4em;"|22-6<br />
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[https://pubmed.ncbi.nlm.nih.gov/34880502/ Gut microbiota modulates weight gain in mice after discontinued smoke exposure]<br />
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|style="padding:.4em;"|JY Ma <br />
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[https://pubmed.ncbi.nlm.nih.gov/34819672/ The human microbiome encodes resistance to the antidiabetic drug acarbose]<br />
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|style="padding:.4em;"|SH Lee <br />
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[https://pubmed.ncbi.nlm.nih.gov/34618582/ Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis]<br />
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|style="padding:.4em;"|HJ Kim <br />
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[https://pubmed.ncbi.nlm.nih.gov/34551799/ The influence of the gut microbiome on BCG-induced trained immunity]<br />
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|style="padding:.4em;"|22-2<br />
|style="padding:.4em;"|JY Ma <br />
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[https://pubmed.ncbi.nlm.nih.gov/34912116/ Towards the biogeography of prokaryotic genes]<br />
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|style="padding:.4em;"|22-1<br />
|style="padding:.4em;"|NY Kim <br />
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[https://pubmed.ncbi.nlm.nih.gov/29347966/ ReprDB and panDB: minimalist databases with maximal microbial representation]<br />
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|style="padding:.4em;"|21-39<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.cell.com/cell/fulltext/S0092-8674(21)00942-9#secsectitle0025 Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-38<br />
|style="padding:.4em;"|SB Back<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/2021.02.09.430114v2 Single-cell ATAC and RNA sequencing reveal pre-existing and persistent subpopulations of cells associated with relapse of prostate cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/11/09<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-37<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.biorxiv.org/content/10.1101/2021.03.16.435578v1 Integrated single-cell transcriptomics and epigenomics reveals strong germinal center-associated etiology of autoimmune risk loci]<br />
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|style="padding:.4em;" rowspan=1|2021/11/02<br />
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|style="padding:.4em;"|21-36<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.biorxiv.org/content/10.1101/2021.07.28.453784v1 Functional Inference of Gene Regulation using Single-Cell Multi-Omics]<br />
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|style="padding:.4em;"|21-35<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.biorxiv.org/content/10.1101/2021.03.24.436532v1 Single-cell analyses reveal a continuum of cell state and composition changes in the malignant transformation of polyps to colorectal cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/10/19<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-34<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.cell.com/cancer-cell/fulltext/S1535-6108(21)00165-3 Single-cell sequencing links multiregional immune landscapes and tissue-resident T cells in ccRCC to tumor topology and therapy efficacy]<br />
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|style="padding:.4em;"|21-33<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S1535610821001173 Tumor and immune reprogramming during immunotherapy in advanced renal cell carcinoma]<br />
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|style="padding:.4em;"|21-32<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.sciencedirect.com/science/article/pii/S1074761321001199 Single-cell chromatin accessibility landscape identifies tissue repair program in human regulatory T cells]<br />
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|style="padding:.4em;"|21-31<br />
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[https://www.nature.com/articles/s41591-021-01232-w Identification of resistance pathways and therapeutic targets in relapsed multiple myeloma patients through single-cell sequencing]<br />
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[https://www.nature.com/articles/s41591-021-01323-8 A single-cell map of intratumoral changes during anti-PD1 treatment of patients with breast cancer]<br />
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|style="padding:.4em;"|21-29<br />
|style="padding:.4em;"|IS Choi <br />
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[https://www.sciencedirect.com/science/article/abs/pii/S0092867420316135 Single-cell landscape of the ecosystem in early-relapse hepatocellular carcinoma]<br />
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[https://www.nature.com/articles/s41586-021-03552-w Interpreting type 1 diabetes risk with genetics and single-cell epigenomics]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867421000726 Massive expansion of human gut bacteriophage diversity]<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312821001451 The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition]<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820306703?dgcid=rss_sd_all Methotrexate impacts conserved pathways in diverse human gut bacteria leading to decreased host immune activation]<br />
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|style="padding:.4em;"|NY Kim<br />
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[https://science.sciencemag.org/content/366/6471/eaax9176 A metagenomic strategy for harnessing the chemical repertoire of the human microbiome]<br />
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|style="padding:.4em;"|21-23<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.nature.com/articles/s41467-019-10927-1 Predictive metabolomic profiling of microbial communities using amplicon or metagenomic sequences]<br />
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[https://www.nature.com/articles/s41564-018-0306-4 Gut microbiome structure and metabolic activity in inflammatory bowel disease]<br />
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|style="padding:.4em;"|21-21<br />
|style="padding:.4em;"|HJ Kim<br />
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[https://www.nature.com/articles/s41591-020-01183-8 Microbiome connections with host metabolism and habitual diet from 1,098 deeply phenotyped individuals]<br />
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[https://www.nature.com/articles/s41467-020-18476-8 A predictive index for health status using species-level gut microbiome profiling]<br />
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|style="padding:.4em;"|21-19<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.nature.com/articles/s41586-019-1237-9 Multi-omics of the gut microbial ecosystem in inflammatory bowel diseases]<br />
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[https://www.nature.com/articles/s41467-021-21475-y Gastrointestinal microbiota composition predicts peripheral inflammatory state during treatment of human tuberculosis]<br />
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|style="padding:.4em;"|21-17<br />
|style="padding:.4em;"|SR You<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820301694 Structure of the Mucosal and Stool Microbiome in Lynch Syndrome]<br />
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[https://science.sciencemag.org/content/369/6506/936 Cross-reactivity between tumor MHC class 1-restricted antigens and an enterococcal bacteriophage]<br />
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[https://www.nature.com/articles/s41564-020-00831-6 Bifidobacterium bifidum strains synergize with immune checkpoint inhibitors to reduce tumour burden in mice]<br />
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[https://www.nature.com/articles/s41591-020-01223-3 The gut microbiome modulates the protective association between a Mediterranean diet and cardiometabolic disease risk]<br />
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[https://www.nature.com/articles/s41467-019-14177-z Impact of commonly used drugs on the composition and metabolic function of the gut microbiota]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420305638 Personalized Mapping of Drug Metabolism by the Human Gut Microbiome]<br />
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[https://www.cell.com/fulltext/S0092-8674(17)30107-1 Mining the Human Gut Microbiota for Immunomodulatory Organisms]<br />
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[https://www.nature.com/articles/s41586-020-2095-1 Microbiome analyses of blood and tissues suggest cancer diagnostic approach]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://science.sciencemag.org/content/368/6494/973 The human tumor microbiome is composed of tumor type-specific intracellular bacteria]<br />
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[https://www.nature.com/articles/s41590-020-0784-4 Functional CRISPR dissection of gene networks controlling human regulatory T cell identity]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420306887 Molecular Pathways of Colon Inflammation Induced by Cancer Immunotherapy]<br />
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[https://www.nature.com/articles/s41588-020-00721-x Single-cell epigenomic analyses implicate candidate causal variants at inherited risk loci for Alzheimer’s and Parkinson’s diseases]<br />
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[https://www.nature.com/articles/s41467-020-14766-3 Trajectory-based differential expression analysis for single-cell sequencing data]<br />
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[https://www.nature.com/articles/s41588-018-0156-2 Genetic determinants of co-accessible chromatin regions in activated T cells across humans]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S009286742030341X Single-Cell Analyses Inform Mechanisms of Myeloid-Targeted Therapies in Colon Cancer]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419308967?via%3Dihub Single-Cell Analysis of Crohn's Disease Lesions Identifies a Pathogenic Cellular Module Associated with Resistance to Anti-TNF Therapy]<br />
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[https://www.nature.com/articles/s41467-020-15956-9 Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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[https://pubmed.ncbi.nlm.nih.gov/32393797/ Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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[https://pubmed.ncbi.nlm.nih.gov/30595452/ Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment Within Human Melanoma]<br />
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[https://pubmed.ncbi.nlm.nih.gov/30388455/ A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
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[https://pubmed.ncbi.nlm.nih.gov/31974247/ Single-cell Transcriptional Diversity Is a Hallmark of Developmental Potential]<br />
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|style="padding:.4em;"|JH Kim<br />
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[https://pubmed.ncbi.nlm.nih.gov/31675496/ Landscape and Dynamics of Single Immune Cells in Hepatocellular Carcinoma]<br />
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[https://pubmed.ncbi.nlm.nih.gov/32103181/ Peripheral T Cell Expansion Predicts Tumour Infiltration and Clinical Response]<br />
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|style="padding:.4em;"|KH Hong<br />
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[https://pubmed.ncbi.nlm.nih.gov/30388456/ Defining T Cell States Associated With Response to Checkpoint Immunotherapy in Melanoma]<br />
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[https://pubmed.ncbi.nlm.nih.gov/31915379/ Rapid Non-Uniform Adaptation to Conformation-Specific KRAS(G12C) Inhibition]<br />
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|style="padding:.4em;"|20-6<br />
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|style="padding:.4em;"|DJ Park<br />
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[https://pubmed.ncbi.nlm.nih.gov/29434354/ Single-cell Gene Expression Reveals a Landscape of Regulatory T Cell Phenotypes Shaped by the TCR]<br />
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|style="padding:.4em;" rowspan=2|2020/04/28<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
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|style="padding:.4em;" rowspan=2|2019/10/15<br />
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|style="padding:.4em;"|19-51<br />
|style="padding:.4em;"|CY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312819303488 Obese Individuals with and without Type 2 Diabetes Show Different Gut Microbial Functional Capacity and Composition]<br />
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|style="padding:.4em;"|19-50<br />
|style="padding:.4em;"|SH Lee<br />
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[https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-019-0722-6 Clustering co-abundant genes identifies components of the gut microbiome that are reproducibly associated with colorectal cancer and inflammatory bowel disease]<br />
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|style="padding:.4em;" rowspan=2|2019/10/08<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-49<br />
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[https://www.nature.com/articles/s41587-019-0206-z Massively parallel single-cell chromatin landscapes of human immune cell development and intratumoral T cell exhaustion]<br />
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[https://www.biorxiv.org/content/10.1101/739011v1 Assessment of computational methods for the analysis of single-cell ATAC-seq data]<br />
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|style="padding:.4em;" rowspan=2|2019/10/01<br />
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|style="padding:.4em;"|MY Lee<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312819303026 Meta-Analysis Reveals Reproducible Gut Microbiome Alterations in Response to a High-Fat Diet]<br />
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|style="padding:.4em;"|19-46<br />
|style="padding:.4em;"|NY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307731 Tumor Microbiome Diversity and Composition Influence Pancreatic Cancer Outcomes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/24<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-45<br />
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[https://genome.cshlp.org/content/early/2019/04/01/gr.243725.118 The accessible chromatin landscape of the murine hippocampus at single-cell resolution]<br />
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|style="padding:.4em;"|19-44<br />
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[https://www.sciencedirect.com/science/article/pii/S009286741830446X Integrated Single-Cell Analysis Maps the Continuous Regulatory Landscape of Human Hematopoietic Differentiation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/17<br />
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[https://science.sciencemag.org/content/365/6449/eaau4735 A sparse covarying unit that describes healthy and impaired human gut microbiota development]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307810 Large-Scale Analyses of Human Microbiomes Reveal Thousands of Small, Novel Genes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/10<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-41<br />
|style="padding:.4em;"|KS Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307329?via%3Dihub Intra- and Inter-cellular Rewiring of the Human Colon during Ulcerative Colitis]<br />
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|style="padding:.4em;"|19-40<br />
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[https://www.nature.com/articles/nbt.4042 Multiplexed droplet single-cell RNA-sequencing using natural genetic variation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/03<br />
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|style="padding:.4em;"|19-39<br />
|style="padding:.4em;"|NY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S193131281930352X?via%3Dihub The Landscape of Genetic Content in the Gut and Oral Human Microbiome]<br />
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|style="padding:.4em;"|19-38<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307755?via%3Dihub Benchmarking Metagenomics Tools for Taxonomic Classification]<br />
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[https://www.biorxiv.org/content/10.1101/719088v1 Coexpression uncovers a unified single-cell transcriptomic landscape]<br />
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|style="padding:.4em;"|19-36<br />
|style="padding:.4em;"|MY Lee<br />
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[https://www.biorxiv.org/content/10.1101/586859v1 Single-cell interactomes of the human brain reveal cell-type specific convergence of brain disorders]<br />
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|style="padding:.4em;" rowspan=3|2019/08/14<br />
|style="padding:.4em;"|19-35<br />
|style="padding:.4em;"|SH Lee<br />
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[https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004075 Proportionality: a valid alternative to correlation for relative data]<br />
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|style="padding:.4em;"|19-34<br />
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[https://www.nature.com/articles/s41598-017-16520-0 propr: An R-package for Identifying Proportionally Abundant Features Using Compositional Data Analysis]<br />
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|style="padding:.4em;"|19-33<br />
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[https://www.nature.com/articles/s41591-018-0157-9 Robust prediction of response to immune checkpoint blockade therapy in metastatic melanoma]<br />
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|style="padding:.4em;" rowspan=2|2019/08/13<br />
|style="padding:.4em;"|19-32<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41592-018-0254-1 A test metric for assessing single-cell RNA-seq batch correction]<br />
|-<br />
|style="padding:.4em;"|19-31<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419305598 Comprehensive Integration of Single-Cell Data]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/08/08<br />
|style="padding:.4em;"|19-30<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418313941 Defining T Cell States Associated with Response to Checkpoint Immunotherapy in Melanoma]<br />
|-<br />
|style="padding:.4em;"|19-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831242X High-Dimensional Analysis Delineates Myeloid and Lymphoid Compartment Remodeling during Successful Immune-Checkpoint Cancer Therapy]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/08/07<br />
|style="padding:.4em;"|19-28<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/555557v1 A single-cell reference map for human blood and tissue T cell activation reveals functional states in health and disease]<br />
|-<br />
|style="padding:.4em;"|19-27<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831568X Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment within Human Melanoma]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/30<br />
|style="padding:.4em;"|19-26<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/nm.4466 High-dimensional single-cell analysis predicts response to anti-PD-1 immunotherapy]<br />
|-<br />
|style="padding:.4em;"|19-25<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418311784 A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/23<br />
|style="padding:.4em;"|19-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26006008 COMPASS identifies T-cell subsets correlated with clinical outcomes.]<br />
|-<br />
|style="padding:.4em;"|19-23<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/ncomms14825 Sensitive detection of rare disease-associated cell subsets via representation learning]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/05/30<br />
|style="padding:.4em;"|19-22<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30936547 Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer]<br />
|-<br />
|style="padding:.4em;"|19-21<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30936548 Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation]<br />
|-<br />
|style="padding:.4em;"|19-20<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30664783 Microbial network disturbances in relapsing refractory Crohn's disease.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/05/23<br />
|style="padding:.4em;"|19-19<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30867587 New insights from uncultivated genomes of the global human gut microbiome]<br />
|-<br />
|style="padding:.4em;"|19-18<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30745586 A new genomic blueprint of the human gut microbiota]<br />
|-<br />
|style="padding:.4em;"|19-17<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30661755 Extensive Unexplored Human Microbiome Diversity Revealed by Over 150,000 Genomes from Metagenomes Spanning Age, Geography, and Lifestyle.]<br />
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|style="padding:.4em;" rowspan=2|2019/05/16<br />
|style="padding:.4em;"|19-16<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29311644 Dynamics of metatranscription in the inflammatory bowel disease gut microbiome.]<br />
|-<br />
|style="padding:.4em;"|19-15<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29335555 Metatranscriptome of human faecal microbial communities in a cohort of adult men.]<br />
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|style="padding:.4em;" rowspan=2|2019/05/09<br />
|style="padding:.4em;"|19-14<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30193113 Post-Antibiotic Gut Mucosal Microbiome Reconstitution Is Impaired by Probiotics and Improved by Autologous FMT.]<br />
|-<br />
|style="padding:.4em;"|19-13<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30193112 Personalized Gut Mucosal Colonization Resistance to Empiric Probiotics Is Associated with Unique Host and Microbiome Features.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/05/02<br />
|style="padding:.4em;"|19-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30753825 Distinct Immune Cell Populations Define Response to Anti-PD-1 Monotherapy and Anti-PD-1/Anti-CTLA-4 Combined Therapy.]<br />
|-<br />
|style="padding:.4em;"|19-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30778252 Subsets of exhausted CD8+ T cells differentially mediate tumor control and respond to checkpoint blockade.]<br />
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|style="padding:.4em;" rowspan=2|2019/4/11<br />
|style="padding:.4em;"|19-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30479382 Lineage tracking reveals dynamic relationships of T cells in colorectal cancer.]<br />
|-<br />
|style="padding:.4em;"|19-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30523328 Single cell dissection of plasma cell heterogeneity in symptomatic and asymptomatic myeloma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/4/4<br />
|style="padding:.4em;"|19-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942092 Single-cell profiling of breast cancer T cells reveals a tissue-resident memory subset associated with improved prognosis.]<br />
|-<br />
|style="padding:.4em;"|19-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942094 Global characterization of T cells in non-small-cell lung cancer by single-cell sequencing]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/28<br />
|style="padding:.4em;"|19-6<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28319088 Reference component analysis of single-cell transcriptomes elucidates cellular heterogeneity in human colorectal tumors.]<br />
|-<br />
|style="padding:.4em;"|19-5<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28622514 Landscape of Infiltrating T Cells in Liver Cancer Revealed by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/3/21<br />
|style="padding:.4em;"|19-4<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29988129 Phenotype molding of stromal cells in the lung tumor microenvironment.]<br />
|-<br />
|style="padding:.4em;"|19-3-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787436 A single-cell molecular map of mouse gastrulation and early organogenesis]<br />
|-<br />
|style="padding:.4em;"|19-3<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787437 The single-cell transcriptional landscape of mammalian organogenesis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/14<br />
|style="padding:.4em;"|19-2<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29961579 Single-Cell Map of Diverse Immune Phenotypes in the Breast Tumor Microenvironment]<br />
|-<br />
|style="padding:.4em;"|19-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29198524 Single-Cell Transcriptomic Analysis of Primary and Metastatic Tumor Ecosystems in Head and Neck Cancer]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2018<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/06/14<br />
|style="padding:.4em;"|18-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+pan-cancer+analysis+of+enhancer+expression+in+nearly+9000+patient+samples A Pan-Cancer Analysis of Enhancer Expression in Nearly 9000 Patient Samples.]<br />
|-<br />
|style="padding:.4em;"|18-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Machine+learning+identifies+stemness+features+associated+with+oncogenic+dedifferentiation Machine Learning Identifies Stemness Features Associated with Oncogenic Dedifferentiation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/06/07<br />
|style="padding:.4em;"|18-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Developmental+and+oncogenic+programs+in+H3K27M+gliomas+dissected+by+single-cell+RNA-seq Developmental and oncogenic programs in H3K27M gliomas dissected by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|18-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Chemoresistance+evolution+in+triple-negative+breast+cancer+delineated+by+single-cell+sequencing Chemoresistance Evolution in Triple-Negative Breast Cancer Delineated by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/31<br />
|style="padding:.4em;"|18-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Mapping+human+pluripotent+stem+cell+differentiation+pathways+using+high+throughput+single-cell+RNA-sequencing Mapping human pluripotent stem cell differentiation pathways using high throughput single-cell RNA-sequencing.]<br />
|-<br />
|style="padding:.4em;"|18-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+single-cell+RNA-seq+survey+of+the+developmental+landscape+of+the+human+prefrontal+cortex A single-cell RNA-seq survey of the developmental landscape of the human prefrontal cortex.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/24<br />
|style="padding:.4em;"|18-6<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Single-cell+RNA+sequencing+identifies+celltype-specific+cis-eQTLs+and+co-expression+QTLs Single-cell RNA sequencing identifies celltype-specific cis-eQTLs and co-expression QTLs.]<br />
|-<br />
|style="padding:.4em;"|18-5<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=FOCS%3A+a+novel+method+for+analyzing+enhancer+and+gene+activity+patterns+infers+an+extensive+enhancer-promoter+map FOCS: a novel method for analyzing enhancer and gene activity patterns infers an extensive enhancer-promoter map.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/17<br />
|style="padding:.4em;"|18-4<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29149608 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;"|18-3<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29610481 A global transcriptional network connecting noncoding mutations to changes in tumor gene expression.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/10<br />
|style="padding:.4em;"|18-2<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Inferring+regulatory+element+landscapes+and+transcription+factor+networks+from+cancer+methylomes Inferring regulatory element landscapes and transcription factor networks from cancer methylomes.]<br />
|-<br />
|style="padding:.4em;"|18-1<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28129544 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2017<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/28<br />
|style="padding:.4em;"|17-36<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28104840 Tumor aneuploidy correlates with markers of immune evasion and with reduced response to immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-35<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27240091 Landscape of tumor-infiltrating T cell repertoire of human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/14<br />
|style="padding:.4em;"|17-34<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2015/09/01/025908 The landscape of T cell infiltration in human cancer and its association with antigen presenting gene expression.]<br />
|-<br />
|style="padding:.4em;"|17-33<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.08.052 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/07<br />
|style="padding:.4em;"|17-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.tandfonline.com/doi/full/10.1080/2162402X.2016.1253654 Identification of genetic determinants of breast cancer immune phenotypes by integrative genome-scale analysis.]<br />
|-<br />
|style="padding:.4em;"|17-31<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.03.075 Genomic Correlates of Immune-Cell Infiltrates in Colorectal Carcinoma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/31<br />
|style="padding:.4em;"|17-30<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.02.065 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|-<br />
|style="padding:.4em;"|17-29<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.019 Pan-cancer Immunogenomic Analyses Reveal Genotype-Immunophenotype Relationships and Predictors of Response to Checkpoint Blockade.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/24<br />
|style="padding:.4em;"|17-28<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.12.022 Systemic Immunity Is Required for Effective Cencer Immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-27<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.020 Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/17<br />
|style="padding:.4em;"|17-26<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.018 Host and Environmental Factors Influencing Individual Human Cytokine Responses.]<br />
|-<br />
|style="padding:.4em;"|17-25<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.017 A Functional Genomics Approach to Understand Variation in Cytokine Production in Humans.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/26<br />
|style="padding:.4em;"|17-24<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2FNMETH.4177 Pooled CRISPR screening with single-cell transcriptome readout.]<br />
|-<br />
|style="padding:.4em;"|17-23<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.039 Dissecting Immune Circuits by Linking CRISPR-Pooled Screens with Single-Cell RNA-Seq.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/12<br />
|style="padding:.4em;"|17-22<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.038 Perturb-Seq: Dissecting Molecular Circuits with Scalable Single-Cell RNA Profiling of Pooled Genetic Screens.]<br />
|-<br />
|style="padding:.4em;"|17-21<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnbt.3569 Wishbone identifies bifurcating developmental trajectories from single-cell data.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/05<br />
|style="padding:.4em;"|17-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2017/02/21/110668 Reversed graph embedding resolves complex single-cell developmental trajectories.]<br />
|-<br />
|style="padding:.4em;"|17-19<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnmeth.4150 Single-cell mRNA quantification and differential analysis with Census.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/29<br />
|style="padding:.4em;"|17-18<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.060 Single-Cell Transcriptomic Analysis Defines Heterogeneity and Transcriptional Dynamics in the Adult Neural Stem Cell Lineage.]<br />
|-<br />
|style="padding:.4em;"|17-17<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26051941 Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/22<br />
|style="padding:.4em;"|17-16<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27580035 Single-cell analysis of mixed-lineage states leading to a binary cell fate choice.]<br />
|-<br />
|style="padding:.4em;"|17-15<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27281220 Dissecting direct reprogramming from fibroblast to neuron using single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/15<br />
|style="padding:.4em;"|17-14<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1126%2Fscience.aad0501 Dissecting the multicellular ecosystem of metastatic melanoma by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|17-13<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26084335 Single-cell mRNA sequencing identifies subclonal heterogeneity in anti-cancer drug responses of lung adenocarcinoma cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/28<br />
|style="padding:.4em;"|17-12<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27824113 A Comprehensive Characterization of the Function of LincRNAs in Transcriptional Regulation Through Long-Range Chromatin Interactions.]<br />
|-<br />
|style="padding:.4em;"|17-11<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27851969 Epigenomic Deconvolution of Breast Tumors Reveals Metabolic Coupling between Constituent Cell Types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/21<br />
|style="padding:.4em;"|17-10<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/12/30/097451 Convergence of dispersed regulatory mutations predicts driver genes in prostate cancer.]<br />
|-<br />
|style="padding:.4em;"|17-09<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27723759 Chromatin structure-based prediction of recurrent noncoding mutations in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/07<br />
|style="padding:.4em;"|17-08<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/17/088286 Somatic Mutations and Neoepitope Homology in Melanomas Treated with CTLA-4 Blockade.]<br />
|-<br />
|style="padding:.4em;"|17-07<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/28/090134 Chemotherapy weakly contributes to predicted neoantigen expression in ovarian cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/31<br />
|style="padding:.4em;"|17-06<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27912059 Microbiota Diurnal Rhythmicity Programs Host Transcriptome Oscillations.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/24<br />
|style="padding:.4em;"|17-05<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27851914 Transcriptional Landscape of Human Tissue Lymphocytes Unveils Uniqueness of Tumor-Infiltrating T Regulatory Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/01/17<br />
|style="padding:.4em;"|17-04<br />
|style="padding:.4em;"|HJ Han <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/25938943 Mapping long-range promoter contacts in human cells with high-resolution capture Hi-C]<br />
|-<br />
|style="padding:.4em;"|17-03<br />
|style="padding:.4em;"|EB Kim <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27306882 CHiCAGO: robust detection of DNA looping interactions in Capture Hi-C data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/10<br />
|style="padding:.4em;"|17-02<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26527291 ZIFA: Dimensionality reduction for zero-inflated single-cell gene expression analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/03<br />
|style="padding:.4em;"|17-01<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26287467 Single-cell messenger RNA sequencing reveals rare intestinal cell types]<br />
|-<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2016<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/27<br />
|style="padding:.4em;"|2016-31<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25664528 Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/6<br />
|style="padding:.4em;"|2016-30<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26299571 Single-Cell RNA-Seq with Waterfall Reveals Molecular Cascades underlying Adult Neurogenesis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/29<br />
|style="padding:.4em;"|2016-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24658644 The dynamics and regulators of cell fate decisions are revealed by pseudotemporal ordering of single cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/22<br />
|style="padding:.4em;"|2016-28<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26887813 Classification of low quality cells from single-cell RNA-seq data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/15<br />
|style="padding:.4em;"|2016-27<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000487 Droplet barcoding for single-cell transcriptomics applied to embryonic stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/8<br />
|style="padding:.4em;"|2016-26<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000488 Highly Parallel Genome-wide Expression Profiling of Individual Cells Using Nanoliter Droplets.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/1<br />
|style="padding:.4em;"|2016-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27426982 Causal Mechanistic Regulatory Network for Glioblastoma Deciphered Using Systems Genetics Network Analysis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/25<br />
|style="padding:.4em;"|2016-24<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27549193 Comprehensive analyses of tumor immunity: implications for cancer immunotherapy.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/11<br />
|style="padding:.4em;"|2016-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=sidespread+parainflammation Widespread parainflammation in human cancer]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/27<br />
|style="padding:.4em;"|2016-22<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27535533 Analysis of protein-coding genetic variation in 60,706 humans]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/20<br />
|style="padding:.4em;"|2016-21<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
Functional characterization of somatic mutations in cancer using network-based inference of protein activity<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27322546 pubmed]<br />
[http://www.nature.com/ng/journal/v48/n8/full/ng.3593.html fulltext]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/13<br />
|style="padding:.4em;"|2016-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=exploiting+single-cell+expression+to+characterize Exploiting single-cell expression to characterize co-expression replicability.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/6<br />
|style="padding:.4em;"|2016-19<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26940869 Clonal neoantigens elicit T cell immunoreactivity and sensitivity to immune checkpoint blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/31<br />
|style="padding:.4em;"|2016-18<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27264179 A Computational Drug Repositioning Approach for Targeting Oncogenic Transcription Factors]<br />
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|style="padding:.4em;" rowspan=1|2016/8/16<br />
|style="padding:.4em;"|2016-17<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27309802 The landscape of accessible chromatin in mammalian preimplantation embryos]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/8<br />
|style="padding:.4em;"|2016-16<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27064255 Enhancer-promoter interactions are encoded by complex genomic signatures on looping chromatin]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/1<br />
|style="padding:.4em;"|2016-15<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27040498 Personalized Immunomonitoring Uncovers Molecular Networks that Stratify Lupus Patients]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/25<br />
|style="padding:.4em;"|2016-14<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=integration+of+summary+data+from+gwas+and+eqtl+studies Integration of summary data from GWAS and eQTL studies predicts complex trait gene targets]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/18<br />
|style="padding:.4em;"|2016-13<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23624555 Identification of transcriptional regulators in the mouse immune system]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/6/8<br />
|style="padding:.4em;"|2016-12<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26619012 Mapping the effects of drugs on the immune system]<br />
|-<br />
|style="padding:.4em;"| 2016-11<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26186195 Elucidating compound mechanism of action by network perturbation analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/6/1<br />
|style="padding:.4em;"|2016-10<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26854917 Integrative approaches for large-scale transcriptome-wide association studies]<br />
|-<br />
|style="padding:.4em;"| 2016-9<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26950747 Tissue-specific regulatory circuits reveal variable modular perturbations across complex diseases]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/18<br />
|style="padding:.4em;"|2016-8<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27013732 Survey of variation in human transcription factors reveals prevalent DNA binding changes]<br />
|-<br />
|style="padding:.4em;"| 2016-7<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26502339 Large-scale identification of sequence variants influencing human transcription factor occupancy in vivo]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/11<br />
|style="padding:.4em;"|2016-6<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25171417 Predicting Cancer-specific vulnerability via data-driven detection of synthetic lethality]<br />
|-<br />
|style="padding:.4em;"| 2016-5<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23467089 Dynamic regulatory network controlling Th17 cell differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/4<br />
|style="padding:.4em;"|2016-4<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25853550 Characterization of the immunophenotypes and antigenomes of colorectal cancers reveals distinct tumor escape mechanisms and novel targets for immunotherapy]<br />
|-<br />
|style="padding:.4em;"| 2016-3<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26618344 Regulators of genetic risk of breast cancer identified by integrative network analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/4/27<br />
|style="padding:.4em;"|2016-2<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26780608 A predictive computational framework for direct reprogramming between human cell types]<br />
|-<br />
|style="padding:.4em;"| 2016-1<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25126793 CellNet: Network biology applied to stem cell engineering]<br />
|}<br />
<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2015<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/06/11<br />
|style="padding:.4em;"|2015-55<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/24/2/340.long Improved exome prioritization of disease genes through cross-species phenotype comparison.]<br />
|-<br />
|style="padding:.4em;"|2015-54<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0002929714001128 Phevor combines multiple biomedical ontologies for accurate identification of disease-causing alleles in single individuals and small nuclear families.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/06/04<br />
|style="padding:.4em;"|2015-53<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2656.html eXtasy: variant prioritization by genomic data fusion.]<br />
|-<br />
|style="padding:.4em;"|2015-52<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/21/9/1529.long A probabilistic disease-gene finder for personal genomes.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/28<br />
|style="padding:.4em;"|2015-51<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n12/full/ng.3141.html Systematic analysis of noncoding somatic mutations and gene expression alterations across 14 tumor types.]<br />
|-<br />
|style="padding:.4em;"|2015-50<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v28/n5/full/nbt.1630.html GREAT improves functional interpretation of cis-regulatory regions.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/21<br />
|style="padding:.4em;"|2015-49<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n3/full/nmeth.2832.html Functional annotation of noncoding sequence variants.]<br />
|-<br />
|style="padding:.4em;"|2015-48<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/15/10/480 FunSeq2: A framework for prioritizing noncoding regulatory variants in cancer.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/14<br />
|style="padding:.4em;"|2015-47<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v12/n2/full/nmeth.3215.html Selecting causal genes from genome-wide association studies via functionally coherent subnetworks.]<br />
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|style="padding:.4em;"|2015-46<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2015/150119/ncomms6890/full/ncomms6890.html Biological interpretation of genome-wide association studies using predicted gene functions.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/05/07<br />
|style="padding:.4em;"|2015-45<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/140626/ncomms5212/full/ncomms5212.html Human symptoms-disease network.]<br />
|-<br />
|style="padding:.4em;"|2015-44<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413010246 A nondegenerate code of deleterious variants in Mendelian loci contributes to complex disease risk.]<br />
|-<br />
|style="padding:.4em;"|2015-43<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/347/6224/1257601.long Uncovering disease-disease relationships through the incomplete interactome.]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/04/30<br />
|style="padding:.4em;"|2015-42<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/142.long The discovery of integrated gene networks for autism and related disorders.]<br />
|-<br />
|style="padding:.4em;"|2015-41<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/12/774.long Integrated systems analysis reveals a molecular network underlying autism spectrum disorders.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/04/23<br />
|style="padding:.4em;"|2015-40<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature13990.html Dissecting neural differentiation regulatory networks through epigenetic footprinting.]<br />
|-<br />
|style="padding:.4em;"|2015-39<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14221.html Cell-of-origin chromatin organization shapes the mutational landscape of cancer.]<br />
|-<br />
|style="padding:.4em;"|2015-38<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14248.html Integrative analysis of 111 reference human epigenomes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/04/09<br />
|style="padding:.4em;"|2015-37<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/246.long Genome-wide analysis of local chromatin packing in Arabidopsis thaliana.]<br />
|-<br />
|style="padding:.4em;"|2015-36<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014974 A 3D map of the human genome at kilobase resolution reveals principles of chromatin looping.]<br />
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|style="padding:.4em;" rowspan=2|2015/04/02<br />
|style="padding:.4em;"|2015-35<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v14/n6/full/nrg3454.html Exploring the three-dimensional organization of genomes: interpreting chromatin interaction data.]<br />
|-<br />
|style="padding:.4em;"|2015-34<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/347/6225/1010.long Transcribed enhancers lead waves of coordinated transcription in transitioning mammalian cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/03/26<br />
|style="padding:.4em;"|2015-33<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/257.long Cupid: simultaneous reconstruction of microRNA-target and ceRNA networks.]<br />
|-<br />
|style="padding:.4em;"|2015-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/41.long Characterization of the neural stem cell gene regulatory network identifies OLIG2 as a multifunctional regulator of self-renewal.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/03/19<br />
|style="padding:.4em;"|2015-31<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.3154.html Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;"|2015-30<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v16/n3/full/nrg3833.html Computational and analytical challenges in single-cell transcriptomics.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/12<br />
|style="padding:.4em;"|2015-29<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867415000136 Extensive Strain-Level Copy-Number Variation across Human Gut Microbiome Species.]<br />
|-<br />
|style="padding:.4em;"|2015-28<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v500/n7464/full/nature12506.html Richness of human gut microbiome correlates with metabolic markers.]<br />
|-<br />
|style="padding:.4em;"|2015-27<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v490/n7418/full/nature11450.html A metagenome-wide association study of gut microbiota in type 2 diabetes.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/09<br />
|style="padding:.4em;"|2015-26<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003326 Practical guidelines for the comprehensive analysis of ChIP-seq data.]<br />
|-<br />
|style="padding:.4em;"|2015-25<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/5/777.long Patterns of regulatory activity across diverse human cell types predict tissue identity, transcription factor binding, and long-range interactions.]<br />
|-<br />
|style="padding:.4em;"|2015-24<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/11/760.long Rapid neurogenesis through transcriptional activation in human stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/02<br />
|style="padding:.4em;"|2015-23<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414011787 Genome-Scale CRISPR-Mediated Control of Gene Repression and Activation.]<br />
|-<br />
|style="padding:.4em;"|2015-22<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1004237 Integrating multiple genomic data to predict disease-causing nonsynonymous single nucleotide variants in exome sequencing studies.]<br />
|-<br />
|style="padding:.4em;"|2015-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v45/n6/full/ng.2653.html The Genotype-Tissue Expression (GTEx) project.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/24<br />
|style="padding:.4em;"|2015-20<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/346/6212/1007.long Mouse regulatory DNA landscapes reveal global principles of cis-regulatory evolution.]<br />
|-<br />
|style="padding:.4em;"|2015-19<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13985.html Principles of regulatory information conservation between mouse and human.]<br />
|-<br />
|style="padding:.4em;"|2015-18<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13972.html Conservation of trans-acting circuitry during mammalian regulatory evolution.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/16<br />
|style="padding:.4em;"|2015-17<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature13835.html Genetic and epigenetic fine mapping of causal autoimmune disease variants.]<br />
|-<br />
|style="padding:.4em;"|2015-16<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n3/full/ng.2892.html A general framework for estimating the relative pathogenicity of human genetic variants.]<br />
|-<br />
|style="padding:.4em;"|2015-15<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003825 A probabilistic model to predict clinical phenotypic traits from genome sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2015/02/02<br />
|style="padding:.4em;"|2015-14<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/22/E2329.long Relating the metatranscriptome and metagenome of the human gut.]<br />
|-<br />
|style="padding:.4em;"|2015-13<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v513/n7516/full/nature13568.html Alterations of the human gut microbiome in liver cirrhosis.]<br />
|-<br />
|style="padding:.4em;"|2015-12<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2942.html An integrated catalog of reference genes in the human gut microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-11<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2939.html Identification and assembly of genomes and genetic elements in complex metagenomic samples without using reference genomes.]<br />
|-<br />
|style="padding:.4em;" rowspan=5|2015/01/26<br />
|style="padding:.4em;"|2015-10<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/9/1/666.long Computational meta'omics for microbial community studies.]<br />
|-<br />
|style="padding:.4em;"|2015-09<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/5/7/65 Functional profiling of the gut microbiome in disease-associated inflammation.]<br />
|-<br />
|style="padding:.4em;"|2015-08<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S016895251200145X Biodiversity and functional genomics in the human microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-07<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002808 Chapter 12: Human Microbiome Analysis.]<br />
|-<br />
|style="padding:.4em;"|2015-06<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.cell.com/cell/abstract/S0092-8674%2814%2900864-2 Conducting a Microbiome Study.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/01/12<br />
|style="padding:.4em;"|2015-05<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/141210/ncomms6522/full/ncomms6522.html Small RNA changes en route to distinct cellular states of induced pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-04<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14046.html Genome-wide characterization of the routes to pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-03<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14047.html Divergent reprogramming routes lead to alternative stem-cell states.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/01/05<br />
|style="padding:.4em;"|2015-02<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/21/E2191.long Global view of enhancer-promoter interactome in human cells.]<br />
|-<br />
|style="padding:.4em;"|2015-01<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://nar.oxfordjournals.org/content/41/22/10391.long Combining Hi-C data with phylogenetic correlation to predict the target genes of distal regulatory elements in human genome.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2014<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/23<br />
|style="padding:.4em;"|2014-41<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413012270 Super-enhancers in the control of cell identity and disease.]<br />
|-<br />
|style="padding:.4em;"|2014-40<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413003929 Master transcription factors and mediator establish super-enhancers at key cell identity genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2014/12/09<br />
|style="padding:.4em;"|2014-39<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414013713 Unraveling the biology of a fungal meningitis pathogen using chemical genetics.]<br />
|-<br />
|style="padding:.4em;"|2014-38<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014226 A proteome-scale map of the human interactome network.]<br />
|-<br />
|style="padding:.4em;"|2014-37<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/9/752.long The role of the interactome in the maintenance of deleterious variability in human populations.]<br />
|-<br />
|style="padding:.4em;"|2014-36<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/342/6154/1235587.long Integrative annotation of variants from 1092 humans: application to cancer genomics.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/02<br />
|style="padding:.4em;"|2014-35<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/8/1319.long Mapping functional transcription factor networks from gene expression data.]<br />
|-<br />
|style="padding:.4em;"|2014-34<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v15/n7/full/nrg3684.html In pursuit of design principles of regulatory sequences.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/25<br />
|style="padding:.4em;"|2014-33<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/3/6/36 Epigenomics of human embryonic stem cells and induced pluripotent stem cells: insights into pluripotency and implications for disease.]<br />
|-<br />
|style="padding:.4em;"|2014-32<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S009286741300891X Developmental fate and cellular maturity encoded in human regulatory DNA landscapes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/18<br />
|style="padding:.4em;"|2014-31<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/6/8/64 The 'dnet' approach promotes emerging research on cancer patient survival.]<br />
|-<br />
|style="padding:.4em;"|2014-30<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414010368 Determination and inference of eukaryotic transcription factor sequence specificity.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/11/11<br />
|style="padding:.4em;"|2014-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/110/16/6412.long Transcription factors interfering with dedifferentiation induce cell type-specific transcriptional profiles.]<br />
|-<br />
|style="padding:.4em;"|2014-28<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009350 Dissecting engineered cell types and enhancing cell fate conversion via CellNet.]<br />
|-<br />
|style="padding:.4em;"|2014-27<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009349 CellNet: network biology applied to stem cell engineering.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/04<br />
|style="padding:.4em;"|2014-26<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009775 Predicting Cancer-Specific Vulnerability via Data-Driven Detection of Synthetic Lethality.]<br />
|-<br />
|style="padding:.4em;"|2014-25<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n9/full/nmeth.3046.html Phen-Gen: combining phenotype and genotype to analyze rare disorders.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/10/28<br />
|style="padding:.4em;"|2014-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.2877.html A community effort to assess and improve drug sensitivity prediction algorithms.]<br />
|-<br />
|style="padding:.4em;"|2014-23<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n9/full/ng.3051.html Multi-tiered genomic analysis of head and neck cancer ties TP53 mutation to 3p loss.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/30<br />
|style="padding:.4em;"|2014-22<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2651.html Network-based stratification of tumor mutations.]<br />
|-<br />
|style="padding:.4em;"|2014-21<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414001457 Synonymous mutations frequently act as driver mutations in human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/23<br />
|style="padding:.4em;"|2014-20<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003460 VarWalker: Personalized Mutation Network Analysis of Putative Cancer Genes from Next-Generation Sequencing Data.]<br />
|-<br />
|style="padding:.4em;"|2014-19<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/13/12/R124 DriverNet: uncovering the impact of somatic driver mutations on transcriptional networks in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/16<br />
|style="padding:.4em;"|2014-18<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/14/5/R52 Integrated analysis of recurrent properties of cancer genes to identify novel drivers.]<br />
|-<br />
|style="padding:.4em;"|2014-17<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/4/11/89 Improving the prediction of the functional impact of cancer mutations by baseline tolerance transformation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/02<br />
|style="padding:.4em;"|2014-16<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23228031 A network module-based method for identifying cancer prognostic signatures.]<br />
|-<br />
|style="padding:.4em;"|2014-15<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24429628 Realizing the promise of cancer predisposition genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/19<br />
|style="padding:.4em;"|2014-14<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24952901 Assessing the clinical utility of cancer genomic and proteomic data across tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-13<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24132290 Mutational landscape and significance across 12 major cancer types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/12<br />
|style="padding:.4em;"|2014-12<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23945592 Signatures of mutational processes in human cancer.]<br />
|-<br />
|style="padding:.4em;"|2014-11<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24390350 Discovery and saturation analysis of cancer genes across 21 tumour types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/05<br />
|style="padding:.4em;"|2014-10<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24084849 Comprehensive identification of mutational cancer driver genes across 12 tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-9<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24037244 IntOGen-mutations identifies cancer drivers across tumor types.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/29<br />
|style="padding:.4em;"|2014-8<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23900255 Computational approaches to identify functional genetic variants in cancer genomes.]<br />
|-<br />
|style="padding:.4em;"|2014-7<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23770567 Mutational heterogeneity in cancer and the search for new cancer-associated genes.]<br />
|-<br />
|style="padding:.4em;"|2014-6<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n4/abs/nmeth.2891.html Cancer genomes: discerning drivers from passengers]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/22<br />
|style="padding:.4em;"|2014-5<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24071849 The Cancer Genome Atlas Pan-Cancer analysis project.]<br />
|-<br />
|style="padding:.4em;"|2014-4<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23539594 Cancer genome landscapes.]<br />
|-<br />
|style="padding:.4em;"|2014-3<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=21900272 Distinguishing driver and passenger mutations in an evolutionary history categorized by interference.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/07/15<br />
|style="padding:.4em;"|2014-2<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670764 A promoter-level mammalian expression atlas.]<br />
|-<br />
|style="padding:.4em;"|2014-1<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670763 An atlas of active enhancers across human cell types and tissues.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2013<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/26<br />
|style="padding:.4em;"|2013-31<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://nar.oxfordjournals.org/content/40/16/7690.long Integration of Hi-C and ChIP-seq data reveals distinct types of chromatin linkages]<br />
|-<br />
|style="padding:.4em;"|2013-30<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n4/full/nbt.2519.html Deciphering molecular circuits from genetic variation underlying transcriptional responsiveness to stimuli]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/04<br />
|style="padding:.4em;"|2013-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|[https://www.cell.com/abstract/S0092-8674(13)00439-X Mapping the Human miRNA Interactome by CLASH Reveals Frequent Noncanonical Binding]<br />
|-<br />
|style="padding:.4em;"|2013-28<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n3/full/nbt.2514.html Sensitive detection of somatic point mutations in impure and heterogeneous cancer samples]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/28<br />
|style="padding:.4em;"|2013-27<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.pnas.org/content/102/38/13544.long Discovering statistically significant pathways in expression profiling studies]<br />
|-<br />
|style="padding:.4em;"|2013-26<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0058977 Prediction and Validation of Gene-Disease Associations Using Methods Inspired by Social Network Analyses]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/21<br />
|style="padding:.4em;"|2013-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v496/n7446/full/nature11981.html Dynamic regulatory network controlling TH17 cell differentiation]<br />
|-<br />
|style="padding:.4em;"|2013-24<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412013529 Deciphering and Prediction of Transcriptome Dynamics under Fluctuating Field Conditions]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/14<br />
|style="padding:.4em;"|2013-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412015565 Integrative eQTL-Based Analyses Reveal the Biology of Breast Cancer Risk Loci]<br />
<br />
|-<br />
|style="padding:.4em;"|2013-22<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v45/n2/full/ng.2504.html Chromatin marks identify critical cell types for fine mapping complex trait variants]<br />
|-<br />
|style="padding:.4em;" rowspan=2|'''2013/05/07'''<br />
|style="padding:.4em;"|2013-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01555-3 Genome-wide Chromatin State Transitions Associated with Developmental and Environmental Cues]<br />
|-<br />
|style="padding:.4em;"|2013-20<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1003201 Human Disease-Associated Genetic Variation Impacts Large Intergenic Non-Coding RNA Expression]<br />
|-<br />
|style="padding:.4em;"|2013/04/09<br />
|style="padding:.4em;"|2013-19<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1790.long Annotation of functional variation in personal genomes using RegulomeDB]<br />
|-<br />
|style="padding:.4em;"|2013/04/02<br />
|style="padding:.4em;"|2013-18<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1775.long The GENCODE v7 catalog of human long noncoding RNAs: Analysis of their gene structure, evolution, and expression]<br />
|-<br />
|style="padding:.4em;" |2013/03/12<br />
|style="padding:.4em;"|2013-17<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002311 Global Mapping of Cell Type–Specific Open Chromatin by FAIRE-seq Reveals the Regulatory Role of the NFI Family in Adipocyte Differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/03/05<br />
|style="padding:.4em;"|2013-16<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nrg/journal/v10/n10/full/nrg2641.html ChIP–seq: advantages and challenges of a maturing technology]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/21<br />
|style="padding:.4em;"|2013-15<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002830 Novel Modeling of Combinatorial miRNA Targeting Identifies SNP with Potential Role in Bone Density]<br />
|-<br />
|style="padding:.4em;"|2013-14<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01424-9 A Molecular Roadmap of Reprogramming Somatic Cells into iPS Cells]<br />
|-<br />
|style="padding:.4em;"|2013-13<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/6/1015.long Differential DNase I hypersensitivity reveals factor-dependent chromatin dynamics.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/15<br />
|style="padding:.4em;"|2013-12<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v43/n3/full/ng.759.html Chromatin accessibility pre-determines glucocorticoid receptor binding patterns]<br />
|-<br />
|style="padding:.4em;"|2013-11<br />
|style="padding:.4em;"| JE Shim, CY Kim <br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v30/n11/full/nbt.2422.html Interpreting noncoding genetic variation in complex traits and human disease]<br />
|-<br />
|style="padding:.4em;"|2013-10<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/21/3/447.full.pdf+html Accurate inference of transcription factor binding from DNA sequence and chromatin accessibility data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/08<br />
|style="padding:.4em;"|2013-09<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002599 Widespread Site-Dependent Buffering of Human Regulatory Polymorphism]<br />
|-<br />
|style="padding:.4em;"|2013-08<br />
|style="padding:.4em;"|JE Shim, CY Kim<br />
|style="padding:.4em;text-align:left;"|[http://genome.cshlp.org/content/22/9/1748.long Linking disease associations with regulatory information in the human genome]<br />
|-<br />
|style="padding:.4em;"|2013-07<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1658.long Understanding transcriptional regulation by integrative analysis of transcription factor binding data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/01/25<br />
|style="padding:.4em;"|2013-06<br />
|style="padding:.4em;"|HJ Han, '''JH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11279.html The long-range interaction landscape of gene promoters]<br />
|-<br />
|style="padding:.4em;"|2013-05<br />
|style="padding:.4em;"|'''ER Kim''', HS Shim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11233.html Landscape of transcription in human cells]<br />
|-<br />
|style="padding:.4em;"|2013-04<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11245.html Architecture of the human regulatory network derived from ENCODE data]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/01/18<br />
|style="padding:.4em;"|2013-03<br />
|style="padding:.4em;"|KS Kim, '''TH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11212.html An expansive human regulatory lexicon encoded in transcription factor footprints]<br />
|-<br />
|style="padding:.4em;"|2013-02<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11232.html The accessible chromatin landscape of the human genome]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/01/11<br />
|style="padding:.4em;"|2013-01<br />
|style="padding:.4em;"| '''JE Shim''', CY Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11247.html An integrated encyclopedia of DNA elements in the human genome]<br />
|}<br />
<br />
2012<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc; padding:5px;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper title<br />
|-<br />
|rowspan = "1"|2013/01/11<br />
|align ="center"|2012-81<br />
|[http://genome.cshlp.org/content/22/8/1589.full (TH Kim) MuSiC: identifying mutational significance in cancer genomes.]<br />
|-<br />
|rowspan = "1"|2012/12/04<br />
|align ="center"|2012-80<br />
|[http://genome.cshlp.org/content/22/8/1383 (CY KIM) Human genomic disease variants: A neutral evolutionary explanation]<br />
|-<br />
|rowspan = "2"|2012/11/20<br />
| align="center"|2012-79<br />
|[http://www.cell.com/abstract/S0092-8674(12)00639-3 (HS Shim) Circuitry and Dynamics of Human Transcription Factor Regulatory Networks]<br />
|-<br />
| align="center"|2012-78<br />
|[http://www.nature.com/nature/journal/v487/n7408/full/nature11288.html (HJ Kim) Interpreting cancer genomes using systematic host network perturbations by tumour virus proteins]<br />
|-<br />
|rowspan = "2"|2012/11/06<br />
| align="center"|2012-77<br />
|[http://www.sciencemag.org/content/337/6099/1190.short (HJ Han) Systematic Localization of Common Disease-Associated Variation in Regulatory DNA]<br />
|-<br />
| align="center"|2012-76<br />
|[http://www.pnas.org/cgi/doi/10.1073/pnas.1201904109 (KS Kim) A public resource facilitating clinical use of genomes] <br />
|-<br />
|rowspan = "6" |2012/07/19<br />
| align="center"|2012-75<br />
|[http://genome.cshlp.org/content/22/7/1334 (HJ Han & YH Ko) Predictive regulatory models in Drosophila melanogaster by integrative inference of transcriptional networks]<br />
|-<br />
| align="center"|2012-74 <br />
|[http://www.sciencemag.org/content/337/6090/100.full (JE Shim) An Abundance of Rare Functional Variants in 202 Drug Target Genes Sequenced in 14,002 People] <br />
|-<br />
| align="center"|2012-73<br />
|[http://www.sciencemag.org/content/337/6090/64.abstract (JE Shim) Evolution and Functional Impact of Rare Coding Variation from Deep Sequencing of Human Exomes]<br />
|-<br />
| align="center"|2012-72<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2063581/ (SH Hwang) Network-based classification of breast cancer metastasis]<br />
|-<br />
| align="center"|2012-71<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002707 (T Lee&CY Kim)Brain Expression Genome-Wide Association Study (eGWAS) Identifies Human Disease-Associated Variants]<br />
|-<br />
| align="center"|2012-70<br />
|[http://genome.cshlp.org/content/20/9/1297 (ER Kim&TH Kim)The Genome Analysis Toolkit: A MapReduce framework for analyzing next-generation DNA sequencing data]<br />
|-<br />
|rowspan = "8" |2012/07/16<br />
| align="center"|2012-69<br />
|[http://www.nature.com/ng/journal/v43/n5/full/ng.806.html (ER Kim&TH Kim)A framework for variation discovery and genotyping using next-generation DNA sequencing data]<br />
|-<br />
| align="center"|2012-66<br />
|[http://bioinformatics.oxfordjournals.org/content/25/16/2078.long (ER Kim&TH Kim)The Sequence Alignment/Map format and SAMtools]<br />
|-<br />
| align="center"|2012-65<br />
|[http://bioinformatics.oxfordjournals.org/content/early/2011/06/07/bioinformatics.btr330 (ER Kim&TH Kim)The Variant Call Format and VCFtools]<br />
|-<br />
| align="center"|2012-64<br />
|[http://www.cell.com/abstract/S0092-8674(12)00104-3 (YH Go&HJ Han)The Impact of the Gut Microbiota on Human Health: An Integrative View]<br />
|-<br />
|align="center"|2012-63<br />
|[http://www.sciencemag.org/content/336/6086/1262.abstract (T Lee&CY Kim)Host-Gut Microbiota Metabolic Interactions]<br />
|-<br />
|align="center"|2012-62<br />
|[http://www.sciencemag.org/content/336/6086/1268.full (AR Cho,JH Ju)Interactions Between the Microbiota and the Immune System]<br />
|-<br />
|align="center"|2012-61<br />
|[http://www.sciencemag.org/content/336/6086/1255.abstract (SH Hwang&HJ Cho)The Application of Ecological Theory Toward an Understanding of the Human Microbiome]<br />
|-<br />
|align="center"|2012-60<br />
|[http://stm.sciencemag.org/content/4/137/137rv5 (SH Hwang&HJ Cho)Microbiota-Targeted Therapies: An Ecological Perspective]<br />
|-<br />
|rowspan = "3" |2012/07/13<br />
|align="center"|2012-59<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002358 (JH Shin&HJ Kim)Metabolic Reconstruction for Metagenomic Data and Its Application to the Human Microbiome]<br />
|-<br />
| align="center"|2012-58<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11209.html (JH Shin&HJ Kim)A framework for human microbiome research]<br />
|-<br />
|align="center"|2012-57<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11234.html (JH Shin&HJ Kim)Structure, function and diversity of the healthy human microbiome]<br />
|-<br />
|rowspan = "4" |2012/07/12<br />
|align="center"|2012-56<br />
|[http://nar.oxfordjournals.org/content/40/D1/D957.long (AR Cho&JH Ju)COLT-Cancer: functional genetic screening resource for essential genes in human cancer cell lines]<br />
|-<br />
|align="center"|2012-55<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1002511 (YH Go&HJ Han)Google Goes Cancer: Improving Outcome Prediction for Cancer Patients by Network-Based Ranking of Marker Genes]<br />
|-<br />
| align="center"|2012-54<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201147.html (YH Go&HJ Han)A pharmacogenomic method for individualized prediction of drug sensitivity]<br />
|-<br />
|align="center"|2012-53<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10983.html (JH Soh)The genomic and transcriptomic architecture of 2,000 breast tumours reveals novel subgroups]<br />
|-<br />
|rowspan = "6" |2012/07/09<br />
|align="center"|2012-52<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11003.html (ER Kim&TH Kim)The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity]<br />
|-<br />
|align="center"|2012-51<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11005.html (ER Kim&TH Kim)Systematic identification of genomic markers of drug sensitivity in cancer cells]<br />
|-<br />
| align="center"|2012-50<br />
|[http://www.pnas.org/content/early/2011/10/13/1018854108.abstract (ER Kim&TH Kim)Subtype and pathway specific responses to anticancer compounds in breast cancer]<br />
|-<br />
|align="center"|2012-49<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10945.html (JE Shim&KS Kim)De novo mutations revealed by whole-exome sequencing are strongly associated with autism]<br />
|-<br />
|align="center"|2012-48<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature11011.html (JE Shim&KS Kim)Patterns and rates of exonic de novo mutations in autism spectrum disorders]<br />
|-<br />
|align="center"|2012-47<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10989.html (JE Shim&KS Kim)Sporadic autism exomes reveal a highly interconnected protein network of de novo mutations]<br />
|-<br />
|rowspan = "6" |2012/07/06<br />
| align="center"|2012-46<br />
|[http://www.g3journal.org/content/1/3/233.full (T Lee&CY Kim)Integrating Rare-Variant Testing, Function Prediction, and Gene Network in Composite Resequencing-Based Genome-Wide Association Studies (CR-GWAS)]<br />
|-<br />
|align="center"|2012-45<br />
|[http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1002621 (T Lee&CY Kim)Type 2 Diabetes Risk Alleles Demonstrate Extreme Directional Differentiation among Human Populations, Compared to Other Diseases]<br />
|-<br />
|align="center"|2012-44<br />
|[http://www.nature.com/nature/journal/v480/n7376/full/nature10665.html (AR Cho&JH Ju)Predicting mutation outcome from early stochastic variation in genetic interaction partners]<br />
|-<br />
|align="center"|2012-43<br />
|[http://www.sciencemag.org/content/335/6064/82 (AR Cho&JH Ju)Fitness Trade-Offs and Environmentally Induced Mutation Buffering in Isogenic C. elegans]<br />
|-<br />
| align="center"|2012-42<br />
|[http://genome.cshlp.org/content/22/6/1163 (JE Shim&KS Kim)Identification of microRNA-regulated gene networks by expression analysis of target genes]<br />
|-<br />
|align="center"|2012-41<br />
|[http://www.nature.com/ng/journal/v44/n6/full/ng.2303.html (JE Shim&KS Kim)Exome sequencing and the genetic basis of complex traits]<br />
|-<br />
|rowspan = "6" |2012/07/02<br />
|align="center"|2012-40<br />
|[http://www.cell.com/abstract/S0092-8674(12)00573-9 (JH Soh)Functional Repurposing Revealed by Comparing S. pombe and S. cerevisiae Genetic Interactions]<br />
|-<br />
|align="center"|2012-39<br />
|[http://genome.cshlp.org/content/22/2/375.long (ER Kim&TH Kim)De novo discovery of mutated driver pathways in cancer]<br />
|-<br />
| align="center"|2012-38<br />
|[http://www.nature.com/msb/journal/v4/n1/full/msb20082.html (YH Go&HJ Han)A systems biology approach to prediction of oncogenes and molecular perturbation targets in B-cell lymphomas]<br />
|-<br />
|align="center"|2012-37<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201126.html (SH Hwang&HJ Cho)PREDICT: a method for inferring novel drug indications with application to personalized medicine]<br />
|-<br />
|align="center"|2012-36<br />
|[http://www.nature.com/nature/journal/v453/n7198/full/nature06973.html (SH Hwang&HJ Cho)Synergistic response to oncogenic mutations defines gene class critical to cancer phenotype]<br />
|-<br />
|align="center"|2012-35<br />
|[http://www.sciencemag.org/content/334/6062/1518.full (JH Shin&HJ Kim)Detecting Novel Associations in Large Data Sets]<br />
|-<br />
|rowspan = "3" |2012/03/05<br />
| align="center"|2012-34<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|align="center"|2012-33<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|align="center"|2012-32<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |2012/02/27<br />2012/02/28<br />
| align="center"|2012-31<br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|align="center"|2012-30<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|align="center"|2012-29<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|align="center"|2012-28<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|align="center"|2012-27<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|align="center"|2012-26<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|align="center"|2012-25<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |2012/02/06<br />
| align="center"|2012-24<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|align="center"|2012-23<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|align="center"|2012-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|align="center"|2012-21<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|align="center"|2012-20<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |2012/01/30<br />
|align="center"|2012-19<br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|align="center"|2012-18<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|align="center"|2012-17<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|align="center"|2012-16<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|align="center"|2012-15<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />
|align="center"|2012-14<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|align="center"|2012-13<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|align="center"|2012-12<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |2012/01/09<br />2012/01/16<br />
| align="center"|2012-11<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|align="center"|2012-10<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|align="center"|2012-09<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|align="center"|2012-08<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|align="center"|2012-07<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|align="center"|2012-06<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-05<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|align="center"|2012-04<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|align="center"|2012-03<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-02<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|align="center"|2012-01<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|}<br />
2011<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "6" |2011/11/28<br />
|align="center"|2011-49<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|align="center"|2011-48<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|align="center"|2011-47<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|align="center"|2011-46<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|align="center"|2011-45<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|align="center"|2011-44<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" |2011/11/14<br />
|align="center"|2011-43<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|align="center"|2011-42<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|align="center"|2011-41<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" |2011/11/07<br />
|align="center"|2011-40<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|align="center"|2011-39<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|align="center"|2011-38<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|align="center"|2011-37<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" |2011/11/07 <br />
|align="center"|2011-36<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|align="center"|2011-35<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|align="center"|2011-34<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" |2011/10/05<br />
|align="center"|2011-33<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|align="center"|2011-32<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|align="center"|2011-31<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |2011/10/04<br />
|align="center"|2011-30<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|align="center"|2011-29<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|align="center"|2011-28<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|align="center"|2011-27<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |2011/09/19<br />
|align="center"|2011-26<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|align="center"|2011-25<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" |2011/09/05<br />
|align="center"|2011-24<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|align="center"|2011-23<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" |2011/09/22 <br />
|align="center"|2011-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|align="center"|2011-21<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|2011/06/20<br />
|align="center"|2011-20<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |2011/03/30<br />
|align="center"|2011-19<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|align="center"|2011-18<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
|rowspan = "2" |2011/03/16<br />
|align="center"|2011-17<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|align="center"|2011-16<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |2011/04/25<br />
|align="center"|2011-15<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|align="center"|2011-14<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|align="center"|2011-13<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |2011/04/11<br />
|align="center"|2011-12<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|align="center"|2011-11<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|2011/03/28<br />
|align="center"|2011-10<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|align="center"|2011-09<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|2011/03/14<br />
|align="center"|2011-08<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|align="center"|2011-07<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
|rowspan = "2"|2011/02/28<br />
|align="center"|2011-06<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|align="center"|2011-05<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|2011/02/21<br />
|align="center"|2011-04<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|2011/02/14<br />
|align="center"|2011-03<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|2011/01/31<br />
|align="center"|2011-02<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|align="center"|2011-01<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|}<br />
2010<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "2"|2010/12/27<br />
|align="center"|2010-29<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|align="center"|2010-28<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|2010/11/15<br />
|align="center"|2010-27<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|align="center"|2010-26<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|2010/11/01<br />
|align="center"|2010-25<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|align="center"|2010-24<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|2010/10/11<br />
|align="center"|2010-23<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|rowspan = "2"|2010/09/13<br />
|align="center"|2010-22<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
|-<br />
|align="center"|2010-21<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|2010/05/26<br />
|align="center"|2010-20<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|2010/05/19<br />
|align="center"|2010-19<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|2010/04/21<br />
|align="center"|2010-18<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|2010/04/14<br />
|align="center"|2010-17<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |2010/04/07<br />
|align="center"|2010-16<br />
|[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|align="center"|2010-15<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|rowspan="2"|2010/03/31<br />
|align="center"|2010-14<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
|-<br />
|align="center"|2010-13<br />
|[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|2010/03/24<br />
|align="center"|2010-12<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|2010/01/18<br />
|align="center"|2010-11<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|2010/01/16<br />
|align="center"|2010-10<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|2010/01/15<br />
|align="center"|2010-09<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|2010/01/14<br />
|align="center"|2010-08<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|2010/01/13<br />
|align="center"|2010-07<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|2010/01/12<br />
|align="center"|2010-06<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|2010/01/11<br />
|align="center"|2010-05<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|2010/01/09<br />
|align="center"|2010-04<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|2010/01/08<br />
|align="center"|2010-03<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|2010/01/07<br />
|align="center"|2010-02<br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|2010/01/06<br />
|align="center"|2010-01<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
<br />
<br />
<br />
<br />
<!--<br />
{| border ="1"<br />
{| border ="1"<br />
|rowspan = "3" |<br />
|rowspan = "3" |March 5 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |***<br />
|rowspan = "7" |February 27 Mon~28 Tue, 2012<br />
|rowspan = "7" | <br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |February 6 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |January 30 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "6" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "2" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |November 28 Mon, 2011<br />
|rowspan = "6" | TY Oh, <br><br />
SH Hwang, <br><br />
JE Shim, <br><br />
S Beck, <br><br />
JH Shin<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 14 Mon, 2011<br />
|rowspan = "3" | HH Kim & AR Cho<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" | <br />
|rowspan = "4" |November 7 Mon, 2011<br />
|rowspan = "4" | YH Ko<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 7 Mon, 2011<br />
|rowspan = "3" | JW Song<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |October 5 Mon, 2011<br />
|rowspan = "3" | HH Kim<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |<br />
|rowspan = "4" |October 4 Mon, 2011<br />
|rowspan = "4" | S Beck<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |September 19 Mon, 2011<br />
|rowspan = "2" | TY Oh<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" |September 5 Mon, 2011<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|SH Hwang<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" | August 22 Mon, 2011<br />
|ER Kim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|<br />
|June 20 Mon, 2011<br />
|JH Shin<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 30 Mon, 2011<br />
|rowspan = "2" | HH Kim<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 16 Mon, 2011<br />
|rowspan = "2" | AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |April 25 Mon, 2011<br />
|rowspan = "3" |S Beck<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 11 Mon, 2011<br />
|JE Shim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|T Lee<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 28 Mon, 2011<br />
|rowspan = "2"|TY Oh<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 14 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
<br />
|rowspan = "2"|<br />
|rowspan = "2"|February 28 Mon, 2011<br />
|KS Kim<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|HJ Han<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|<br />
|February 21 Mon, 2011<br />
|MH Lee<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|<br />
|February 14 Mon, 2011<br />
|AR Cho<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|January 31 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2" | December 27 Mon, 2010<br />
|ER Kim<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 15 Mon, 2010<br />
|AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 1 Mon, 2010<br />
|HH Kim<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|JH Shin<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|<br />
|October 11 Mon, 2010<br />
|JE Shim<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|<br />
|September 13 Mon, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|<br />
|May 26 Wed, 2010<br />
|AR Cho<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|<br />
|May 19 Wed, 2010<br />
|SG Ji<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|<br />
|April 21 Wed, 2010<br />
|JH Shin<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|<br />
|April 14 Wed, 2010<br />
|TY Oh<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 7 Wed, 2010<br />
|HHkim<br />
|<br />
[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|T Lee<br />
|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|<br />
|Mar 31 Wed, 2010<br />
|JE Shim<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|<br />
|Mar 24 Wed, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|<br />
|Jan 18 Mon, 2010<br />
|TY Oh(T Lee)<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|<br />
|Jan 16 Sat, 2010<br />
|JE Shim(MH Lee)<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|<br />
|Jan 15 Fri, 2010<br />
|SG Ji<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|<br />
|Jan 14 Thu, 2010<br />
|HH kim<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|<br />
|Jan 13 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|<br />
|Jan 12 Tue, 2010<br />
|TY Oh(T Lee)<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|<br />
|Jan 11 Mon, 2010<br />
|JE Shim(MH Lee)<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|<br />
|Jan 09 Sat, 2010<br />
|SG Ji<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|<br />
|Jan 08 Fri, 2010<br />
|AR Cho<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|<br />
|Jan 07 Thu, 2010<br />
|HH Kim <br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|<br />
|Jan 06 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
--></div>
Choiismath
https://netbiolab.org/w/Journal_Club
Journal Club
2022-03-17T14:39:55Z
<p>Choiismath: </p>
<hr />
<div>{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2022-1st scOmics<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Team<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=1|2022/06/17<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-1-15<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://doi.org/10.1101/2022.02.05.479217 Biologically informed deep learning to infer gene program activity in single cells]<br />
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|style="padding:.4em;"|SB Baek<br />
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[https://doi.org/10.1101/2021.10.17.464750 SIMBA: SIngle-cell eMBedding Along with features]<br />
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|style="padding:.4em;"|22-1-13<br />
|style="padding:.4em;"|JH Cha<br />
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[https://pubmed.ncbi.nlm.nih.gov/34462589/ Mapping single-cell data to reference atlases by transfer learning]<br />
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|style="padding:.4em;"|22-1-12<br />
|style="padding:.4em;"|JW Yu<br />
|style="padding:.4em;text-align:left"|<br />
[https://doi.org/10.1101/2021.10.31.466532 Pan-cancer mapping of single T cell profiles reveals a TCF1:CXCR6-CXCL16 regulatory axis essential for effective anti-tumor immunity]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://doi.org/10.1016/j.patter.2022.100443 EMBEDR: Distinguishing signal from noise in single-cell omics data]<br />
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|style="padding:.4em;"|IS Choi <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34845454/ Identifying disease-critical cell types and cellular processes across the human body by integration of single-cell profiles and human genetics]<br />
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|style="padding:.4em;"|22-1-9<br />
|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34675423/ Co-varying neighborhood analysis identifies cell populations associated with phenotypes of interest from single-cell transcriptomics]<br />
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|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34426704/ Integrating T cell receptor sequences and transcriptional profiles by clonotype neighbor graph analysis (CoNGA)]<br />
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|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34986867/ Hepatocellular carcinoma patients with high circulating cytotoxic T cells and intra-tumoral immune signature benefit from pembrolizumab: results from a single-arm phase 2 trial]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/35199064/ Effect of imputation on gene network reconstruction from single-cell RNA-seq data]<br />
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|style="padding:.4em;"|IS Choi <br />
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[https://pubmed.ncbi.nlm.nih.gov/35105355/ Diagnostic Evidence GAuge of Single cells (DEGAS): a flexible deep transfer learning framework for prioritizing cells in relation to disease]<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/35172892/ Integrating single-cell sequencing data with GWAS summary statistics reveals CD16+monocytes and memory CD8+T cells involved in severe COVID-19]<br />
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|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-1-3<br />
|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34663807/ Single cell T cell landscape and T cell receptor repertoire profiling of AML in context of PD-1 blockade therapy]<br />
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|style="padding:.4em;"|22-1-2<br />
|style="padding:.4em;"|JW Yu <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34594031/ Systematic investigation of cytokine signaling activity at the tissue and single-cell levels]<br />
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|style="padding:.4em;"|22-1-1<br />
|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34852236/ Neoantigen-driven B cell and CD4 T follicular helper cell collaboration promotes anti-tumor CD8 T cell responses]<br />
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|style="padding:.4em;"|22-21<br />
|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34930412/ MultiMAP: dimensionality reduction and integration of multimodal data]<br />
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|style="padding:.4em;"|22-20<br />
|style="padding:.4em;"|IS Choi <br />
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[https://www.biorxiv.org/content/10.1101/2020.10.19.345983v2 CellRank for directed single-cell fate mapping]<br />
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|style="padding:.4em;"|22-19<br />
|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34653365/ Single-cell analyses reveal key immune cell subsets associated with response to PD-L1 blockade in triple-negative breast cancer]<br />
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|style="padding:.4em;"|22-18<br />
|style="padding:.4em;"|IS Choi<br />
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[https://pubmed.ncbi.nlm.nih.gov/34390642/ Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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|style="padding:.4em;"|22-17<br />
|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34767762/ Single-cell analysis of human non-small cell lung cancer lesions refines tumor classification and patient stratification]<br />
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|style="padding:.4em;"|22-16<br />
|style="padding:.4em;"|JH Cha <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/34914499/ Pan-cancer single-cell landscape of tumor-infiltrating T cells]<br />
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|style="padding:.4em;"|22-15<br />
|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34597583/ Atlas of clinically distinct cell states and ecosystems across human solid tumors]<br />
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|style="padding:.4em;"|22-14<br />
|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34489465/ Single-cell ATAC and RNA sequencing reveal pre-existing and persistent cells associated with prostate cancer relapse]<br />
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|style="padding:.4em;" rowspan=1|2022/04/1<br />
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[https://journals.asm.org/doi/10.1128/mSystems.00252-19 Comprehensive Analysis Reveals the Evolution and Pathogenicity of Aeromonas, Viewed from Both Single Isolated Species and Microbial Communities]<br />
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|style="padding:.4em;"|22-12<br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-022-02610-4 AGAMEMNON: an Accurate metaGenomics And MEtatranscriptoMics quaNtificatiON analysis suite]<br />
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|style="padding:.4em;" rowspan=1|Microbiome<br />
|style="padding:.4em;"|22-11<br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-020-02200-2 Metapangenomics of the oral microbiome provides insights into habitat adaptation and cultivar diversity]<br />
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|style="padding:.4em;"|22-10<br />
|style="padding:.4em;"|JY Ma <br />
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[https://genomemedicine.biomedcentral.com/articles/10.1186/s13073-022-01011-3 Microbiota of the prostate tumor environment investigated by whole-transcriptome profiling]<br />
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|style="padding:.4em;"|22-9<br />
|style="padding:.4em;"|NY Kim <br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-021-02576-9 Species-resolved sequencing of low-biomass or degraded microbiomes using 2bRAD-M]<br />
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|style="padding:.4em;"|22-8<br />
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[https://pubmed.ncbi.nlm.nih.gov/34893089/ Microbial co-occurrence complicates associations of gut microbiome with US immigration, dietary intake and obesity]<br />
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|style="padding:.4em;"|22-7<br />
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[https://pubmed.ncbi.nlm.nih.gov/34517888/ Gut microbial determinants of clinically important improvement in patients with rheumatoid arthritis]<br />
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|style="padding:.4em;"|22-6<br />
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[https://pubmed.ncbi.nlm.nih.gov/34880502/ Gut microbiota modulates weight gain in mice after discontinued smoke exposure]<br />
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|style="padding:.4em;"|22-5<br />
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[https://pubmed.ncbi.nlm.nih.gov/34819672/ The human microbiome encodes resistance to the antidiabetic drug acarbose]<br />
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|style="padding:.4em;"|22-4<br />
|style="padding:.4em;"|SH Lee <br />
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[https://pubmed.ncbi.nlm.nih.gov/34618582/ Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis]<br />
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|style="padding:.4em;"|22-3<br />
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[https://pubmed.ncbi.nlm.nih.gov/34551799/ The influence of the gut microbiome on BCG-induced trained immunity]<br />
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|style="padding:.4em;"|22-2<br />
|style="padding:.4em;"|JY Ma <br />
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[https://pubmed.ncbi.nlm.nih.gov/34912116/ Towards the biogeography of prokaryotic genes]<br />
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|style="padding:.4em;"|NY Kim <br />
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[https://pubmed.ncbi.nlm.nih.gov/29347966/ ReprDB and panDB: minimalist databases with maximal microbial representation]<br />
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|style="padding:.4em;" rowspan=1|2021/11/23<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-39<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.cell.com/cell/fulltext/S0092-8674(21)00942-9#secsectitle0025 Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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|style="padding:.4em;" rowspan=1|2021/11/16<br />
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|style="padding:.4em;"|21-38<br />
|style="padding:.4em;"|SB Back<br />
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[https://www.biorxiv.org/content/10.1101/2021.02.09.430114v2 Single-cell ATAC and RNA sequencing reveal pre-existing and persistent subpopulations of cells associated with relapse of prostate cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/11/09<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-37<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.biorxiv.org/content/10.1101/2021.03.16.435578v1 Integrated single-cell transcriptomics and epigenomics reveals strong germinal center-associated etiology of autoimmune risk loci]<br />
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|style="padding:.4em;" rowspan=1|2021/11/02<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-36<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.biorxiv.org/content/10.1101/2021.07.28.453784v1 Functional Inference of Gene Regulation using Single-Cell Multi-Omics]<br />
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|style="padding:.4em;"|21-35<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.biorxiv.org/content/10.1101/2021.03.24.436532v1 Single-cell analyses reveal a continuum of cell state and composition changes in the malignant transformation of polyps to colorectal cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/10/19<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|21-34<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.cell.com/cancer-cell/fulltext/S1535-6108(21)00165-3 Single-cell sequencing links multiregional immune landscapes and tissue-resident T cells in ccRCC to tumor topology and therapy efficacy]<br />
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|style="padding:.4em;"|21-33<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S1535610821001173 Tumor and immune reprogramming during immunotherapy in advanced renal cell carcinoma]<br />
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|style="padding:.4em;" rowspan=1|2021/09/28<br />
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|style="padding:.4em;"|21-32<br />
|style="padding:.4em;"|SB Baek<br />
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[https://www.sciencedirect.com/science/article/pii/S1074761321001199 Single-cell chromatin accessibility landscape identifies tissue repair program in human regulatory T cells]<br />
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|style="padding:.4em;" rowspan=1|2021/09/14<br />
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|style="padding:.4em;"|21-31<br />
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[https://www.nature.com/articles/s41591-021-01232-w Identification of resistance pathways and therapeutic targets in relapsed multiple myeloma patients through single-cell sequencing]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://www.nature.com/articles/s41591-021-01323-8 A single-cell map of intratumoral changes during anti-PD1 treatment of patients with breast cancer]<br />
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|style="padding:.4em;" rowspan=1|2021/08/31<br />
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[https://www.sciencedirect.com/science/article/abs/pii/S0092867420316135 Single-cell landscape of the ecosystem in early-relapse hepatocellular carcinoma]<br />
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|style="padding:.4em;" rowspan=1|2021/08/24<br />
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[https://www.nature.com/articles/s41586-021-03552-w Interpreting type 1 diabetes risk with genetics and single-cell epigenomics]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867421000726 Massive expansion of human gut bacteriophage diversity]<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312821001451 The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition]<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820306703?dgcid=rss_sd_all Methotrexate impacts conserved pathways in diverse human gut bacteria leading to decreased host immune activation]<br />
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|style="padding:.4em;" rowspan=2|2021/05/20<br />
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[https://science.sciencemag.org/content/366/6471/eaax9176 A metagenomic strategy for harnessing the chemical repertoire of the human microbiome]<br />
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|style="padding:.4em;"|21-23<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.nature.com/articles/s41467-019-10927-1 Predictive metabolomic profiling of microbial communities using amplicon or metagenomic sequences]<br />
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[https://www.nature.com/articles/s41564-018-0306-4 Gut microbiome structure and metabolic activity in inflammatory bowel disease]<br />
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|style="padding:.4em;"|HJ Kim<br />
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[https://www.nature.com/articles/s41591-020-01183-8 Microbiome connections with host metabolism and habitual diet from 1,098 deeply phenotyped individuals]<br />
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[https://www.nature.com/articles/s41467-020-18476-8 A predictive index for health status using species-level gut microbiome profiling]<br />
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|style="padding:.4em;"|21-19<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.nature.com/articles/s41586-019-1237-9 Multi-omics of the gut microbial ecosystem in inflammatory bowel diseases]<br />
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[https://www.nature.com/articles/s41467-021-21475-y Gastrointestinal microbiota composition predicts peripheral inflammatory state during treatment of human tuberculosis]<br />
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|style="padding:.4em;"|21-17<br />
|style="padding:.4em;"|SR You<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820301694 Structure of the Mucosal and Stool Microbiome in Lynch Syndrome]<br />
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[https://science.sciencemag.org/content/369/6506/936 Cross-reactivity between tumor MHC class 1-restricted antigens and an enterococcal bacteriophage]<br />
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[https://www.nature.com/articles/s41564-020-00831-6 Bifidobacterium bifidum strains synergize with immune checkpoint inhibitors to reduce tumour burden in mice]<br />
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[https://www.nature.com/articles/s41591-020-01223-3 The gut microbiome modulates the protective association between a Mediterranean diet and cardiometabolic disease risk]<br />
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[https://www.nature.com/articles/s41467-019-14177-z Impact of commonly used drugs on the composition and metabolic function of the gut microbiota]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420305638 Personalized Mapping of Drug Metabolism by the Human Gut Microbiome]<br />
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[https://www.cell.com/fulltext/S0092-8674(17)30107-1 Mining the Human Gut Microbiota for Immunomodulatory Organisms]<br />
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[https://www.nature.com/articles/s41586-020-2095-1 Microbiome analyses of blood and tissues suggest cancer diagnostic approach]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://science.sciencemag.org/content/368/6494/973 The human tumor microbiome is composed of tumor type-specific intracellular bacteria]<br />
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[https://www.nature.com/articles/s41590-020-0784-4 Functional CRISPR dissection of gene networks controlling human regulatory T cell identity]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420306887 Molecular Pathways of Colon Inflammation Induced by Cancer Immunotherapy]<br />
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[https://www.nature.com/articles/s41588-020-00721-x Single-cell epigenomic analyses implicate candidate causal variants at inherited risk loci for Alzheimer’s and Parkinson’s diseases]<br />
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[https://www.nature.com/articles/s41467-020-14766-3 Trajectory-based differential expression analysis for single-cell sequencing data]<br />
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[https://www.nature.com/articles/s41588-018-0156-2 Genetic determinants of co-accessible chromatin regions in activated T cells across humans]<br />
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[https://www.sciencedirect.com/science/article/pii/S009286742030341X Single-Cell Analyses Inform Mechanisms of Myeloid-Targeted Therapies in Colon Cancer]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419308967?via%3Dihub Single-Cell Analysis of Crohn's Disease Lesions Identifies a Pathogenic Cellular Module Associated with Resistance to Anti-TNF Therapy]<br />
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[https://www.nature.com/articles/s41467-020-15956-9 Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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[https://pubmed.ncbi.nlm.nih.gov/32393797/ Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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[https://pubmed.ncbi.nlm.nih.gov/30595452/ Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment Within Human Melanoma]<br />
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[https://pubmed.ncbi.nlm.nih.gov/30388455/ A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
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[https://pubmed.ncbi.nlm.nih.gov/31974247/ Single-cell Transcriptional Diversity Is a Hallmark of Developmental Potential]<br />
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|style="padding:.4em;"|JH Kim<br />
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[https://pubmed.ncbi.nlm.nih.gov/31675496/ Landscape and Dynamics of Single Immune Cells in Hepatocellular Carcinoma]<br />
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[https://pubmed.ncbi.nlm.nih.gov/32103181/ Peripheral T Cell Expansion Predicts Tumour Infiltration and Clinical Response]<br />
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|style="padding:.4em;"|KH Hong<br />
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[https://pubmed.ncbi.nlm.nih.gov/31915379/ Rapid Non-Uniform Adaptation to Conformation-Specific KRAS(G12C) Inhibition]<br />
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|style="padding:.4em;"|20-6<br />
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|style="padding:.4em;"|DJ Park<br />
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[https://pubmed.ncbi.nlm.nih.gov/29434354/ Single-cell Gene Expression Reveals a Landscape of Regulatory T Cell Phenotypes Shaped by the TCR]<br />
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|style="padding:.4em;" rowspan=2|2020/04/28<br />
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|style="padding:.4em;"|CY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312819303488 Obese Individuals with and without Type 2 Diabetes Show Different Gut Microbial Functional Capacity and Composition]<br />
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[https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-019-0722-6 Clustering co-abundant genes identifies components of the gut microbiome that are reproducibly associated with colorectal cancer and inflammatory bowel disease]<br />
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|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-49<br />
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[https://www.nature.com/articles/s41587-019-0206-z Massively parallel single-cell chromatin landscapes of human immune cell development and intratumoral T cell exhaustion]<br />
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[https://www.biorxiv.org/content/10.1101/739011v1 Assessment of computational methods for the analysis of single-cell ATAC-seq data]<br />
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|style="padding:.4em;"|MY Lee<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312819303026 Meta-Analysis Reveals Reproducible Gut Microbiome Alterations in Response to a High-Fat Diet]<br />
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|style="padding:.4em;"|19-46<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307731 Tumor Microbiome Diversity and Composition Influence Pancreatic Cancer Outcomes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/24<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
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[https://genome.cshlp.org/content/early/2019/04/01/gr.243725.118 The accessible chromatin landscape of the murine hippocampus at single-cell resolution]<br />
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[https://www.sciencedirect.com/science/article/pii/S009286741830446X Integrated Single-Cell Analysis Maps the Continuous Regulatory Landscape of Human Hematopoietic Differentiation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/17<br />
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[https://science.sciencemag.org/content/365/6449/eaau4735 A sparse covarying unit that describes healthy and impaired human gut microbiota development]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307810 Large-Scale Analyses of Human Microbiomes Reveal Thousands of Small, Novel Genes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/10<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-41<br />
|style="padding:.4em;"|KS Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307329?via%3Dihub Intra- and Inter-cellular Rewiring of the Human Colon during Ulcerative Colitis]<br />
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|style="padding:.4em;"|19-40<br />
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[https://www.nature.com/articles/nbt.4042 Multiplexed droplet single-cell RNA-sequencing using natural genetic variation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/03<br />
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|style="padding:.4em;"|19-39<br />
|style="padding:.4em;"|NY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S193131281930352X?via%3Dihub The Landscape of Genetic Content in the Gut and Oral Human Microbiome]<br />
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|style="padding:.4em;"|19-38<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307755?via%3Dihub Benchmarking Metagenomics Tools for Taxonomic Classification]<br />
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[https://www.biorxiv.org/content/10.1101/719088v1 Coexpression uncovers a unified single-cell transcriptomic landscape]<br />
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|style="padding:.4em;"|19-36<br />
|style="padding:.4em;"|MY Lee<br />
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[https://www.biorxiv.org/content/10.1101/586859v1 Single-cell interactomes of the human brain reveal cell-type specific convergence of brain disorders]<br />
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|style="padding:.4em;" rowspan=3|2019/08/14<br />
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|style="padding:.4em;"|SH Lee<br />
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[https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004075 Proportionality: a valid alternative to correlation for relative data]<br />
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|style="padding:.4em;"|19-34<br />
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|style="padding:.4em;"|19-33<br />
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[https://www.nature.com/articles/s41591-018-0157-9 Robust prediction of response to immune checkpoint blockade therapy in metastatic melanoma]<br />
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[https://www.nature.com/articles/s41592-018-0254-1 A test metric for assessing single-cell RNA-seq batch correction]<br />
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|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419305598 Comprehensive Integration of Single-Cell Data]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/08/08<br />
|style="padding:.4em;"|19-30<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418313941 Defining T Cell States Associated with Response to Checkpoint Immunotherapy in Melanoma]<br />
|-<br />
|style="padding:.4em;"|19-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831242X High-Dimensional Analysis Delineates Myeloid and Lymphoid Compartment Remodeling during Successful Immune-Checkpoint Cancer Therapy]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/08/07<br />
|style="padding:.4em;"|19-28<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/555557v1 A single-cell reference map for human blood and tissue T cell activation reveals functional states in health and disease]<br />
|-<br />
|style="padding:.4em;"|19-27<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831568X Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment within Human Melanoma]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/30<br />
|style="padding:.4em;"|19-26<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/nm.4466 High-dimensional single-cell analysis predicts response to anti-PD-1 immunotherapy]<br />
|-<br />
|style="padding:.4em;"|19-25<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418311784 A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/23<br />
|style="padding:.4em;"|19-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26006008 COMPASS identifies T-cell subsets correlated with clinical outcomes.]<br />
|-<br />
|style="padding:.4em;"|19-23<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/ncomms14825 Sensitive detection of rare disease-associated cell subsets via representation learning]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/05/30<br />
|style="padding:.4em;"|19-22<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30936547 Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer]<br />
|-<br />
|style="padding:.4em;"|19-21<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30936548 Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation]<br />
|-<br />
|style="padding:.4em;"|19-20<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30664783 Microbial network disturbances in relapsing refractory Crohn's disease.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/05/23<br />
|style="padding:.4em;"|19-19<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30867587 New insights from uncultivated genomes of the global human gut microbiome]<br />
|-<br />
|style="padding:.4em;"|19-18<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30745586 A new genomic blueprint of the human gut microbiota]<br />
|-<br />
|style="padding:.4em;"|19-17<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30661755 Extensive Unexplored Human Microbiome Diversity Revealed by Over 150,000 Genomes from Metagenomes Spanning Age, Geography, and Lifestyle.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/05/16<br />
|style="padding:.4em;"|19-16<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29311644 Dynamics of metatranscription in the inflammatory bowel disease gut microbiome.]<br />
|-<br />
|style="padding:.4em;"|19-15<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29335555 Metatranscriptome of human faecal microbial communities in a cohort of adult men.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/05/09<br />
|style="padding:.4em;"|19-14<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30193113 Post-Antibiotic Gut Mucosal Microbiome Reconstitution Is Impaired by Probiotics and Improved by Autologous FMT.]<br />
|-<br />
|style="padding:.4em;"|19-13<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30193112 Personalized Gut Mucosal Colonization Resistance to Empiric Probiotics Is Associated with Unique Host and Microbiome Features.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/05/02<br />
|style="padding:.4em;"|19-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30753825 Distinct Immune Cell Populations Define Response to Anti-PD-1 Monotherapy and Anti-PD-1/Anti-CTLA-4 Combined Therapy.]<br />
|-<br />
|style="padding:.4em;"|19-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30778252 Subsets of exhausted CD8+ T cells differentially mediate tumor control and respond to checkpoint blockade.]<br />
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|style="padding:.4em;" rowspan=2|2019/4/11<br />
|style="padding:.4em;"|19-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30479382 Lineage tracking reveals dynamic relationships of T cells in colorectal cancer.]<br />
|-<br />
|style="padding:.4em;"|19-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30523328 Single cell dissection of plasma cell heterogeneity in symptomatic and asymptomatic myeloma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/4/4<br />
|style="padding:.4em;"|19-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942092 Single-cell profiling of breast cancer T cells reveals a tissue-resident memory subset associated with improved prognosis.]<br />
|-<br />
|style="padding:.4em;"|19-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942094 Global characterization of T cells in non-small-cell lung cancer by single-cell sequencing]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/28<br />
|style="padding:.4em;"|19-6<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28319088 Reference component analysis of single-cell transcriptomes elucidates cellular heterogeneity in human colorectal tumors.]<br />
|-<br />
|style="padding:.4em;"|19-5<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28622514 Landscape of Infiltrating T Cells in Liver Cancer Revealed by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/3/21<br />
|style="padding:.4em;"|19-4<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29988129 Phenotype molding of stromal cells in the lung tumor microenvironment.]<br />
|-<br />
|style="padding:.4em;"|19-3-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787436 A single-cell molecular map of mouse gastrulation and early organogenesis]<br />
|-<br />
|style="padding:.4em;"|19-3<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787437 The single-cell transcriptional landscape of mammalian organogenesis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/14<br />
|style="padding:.4em;"|19-2<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29961579 Single-Cell Map of Diverse Immune Phenotypes in the Breast Tumor Microenvironment]<br />
|-<br />
|style="padding:.4em;"|19-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29198524 Single-Cell Transcriptomic Analysis of Primary and Metastatic Tumor Ecosystems in Head and Neck Cancer]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2018<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/06/14<br />
|style="padding:.4em;"|18-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+pan-cancer+analysis+of+enhancer+expression+in+nearly+9000+patient+samples A Pan-Cancer Analysis of Enhancer Expression in Nearly 9000 Patient Samples.]<br />
|-<br />
|style="padding:.4em;"|18-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Machine+learning+identifies+stemness+features+associated+with+oncogenic+dedifferentiation Machine Learning Identifies Stemness Features Associated with Oncogenic Dedifferentiation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/06/07<br />
|style="padding:.4em;"|18-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Developmental+and+oncogenic+programs+in+H3K27M+gliomas+dissected+by+single-cell+RNA-seq Developmental and oncogenic programs in H3K27M gliomas dissected by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|18-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Chemoresistance+evolution+in+triple-negative+breast+cancer+delineated+by+single-cell+sequencing Chemoresistance Evolution in Triple-Negative Breast Cancer Delineated by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/31<br />
|style="padding:.4em;"|18-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Mapping+human+pluripotent+stem+cell+differentiation+pathways+using+high+throughput+single-cell+RNA-sequencing Mapping human pluripotent stem cell differentiation pathways using high throughput single-cell RNA-sequencing.]<br />
|-<br />
|style="padding:.4em;"|18-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+single-cell+RNA-seq+survey+of+the+developmental+landscape+of+the+human+prefrontal+cortex A single-cell RNA-seq survey of the developmental landscape of the human prefrontal cortex.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/24<br />
|style="padding:.4em;"|18-6<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Single-cell+RNA+sequencing+identifies+celltype-specific+cis-eQTLs+and+co-expression+QTLs Single-cell RNA sequencing identifies celltype-specific cis-eQTLs and co-expression QTLs.]<br />
|-<br />
|style="padding:.4em;"|18-5<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=FOCS%3A+a+novel+method+for+analyzing+enhancer+and+gene+activity+patterns+infers+an+extensive+enhancer-promoter+map FOCS: a novel method for analyzing enhancer and gene activity patterns infers an extensive enhancer-promoter map.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/17<br />
|style="padding:.4em;"|18-4<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29149608 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;"|18-3<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29610481 A global transcriptional network connecting noncoding mutations to changes in tumor gene expression.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/10<br />
|style="padding:.4em;"|18-2<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Inferring+regulatory+element+landscapes+and+transcription+factor+networks+from+cancer+methylomes Inferring regulatory element landscapes and transcription factor networks from cancer methylomes.]<br />
|-<br />
|style="padding:.4em;"|18-1<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28129544 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2017<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/28<br />
|style="padding:.4em;"|17-36<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28104840 Tumor aneuploidy correlates with markers of immune evasion and with reduced response to immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-35<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27240091 Landscape of tumor-infiltrating T cell repertoire of human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/14<br />
|style="padding:.4em;"|17-34<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2015/09/01/025908 The landscape of T cell infiltration in human cancer and its association with antigen presenting gene expression.]<br />
|-<br />
|style="padding:.4em;"|17-33<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.08.052 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/07<br />
|style="padding:.4em;"|17-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.tandfonline.com/doi/full/10.1080/2162402X.2016.1253654 Identification of genetic determinants of breast cancer immune phenotypes by integrative genome-scale analysis.]<br />
|-<br />
|style="padding:.4em;"|17-31<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.03.075 Genomic Correlates of Immune-Cell Infiltrates in Colorectal Carcinoma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/31<br />
|style="padding:.4em;"|17-30<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.02.065 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|-<br />
|style="padding:.4em;"|17-29<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.019 Pan-cancer Immunogenomic Analyses Reveal Genotype-Immunophenotype Relationships and Predictors of Response to Checkpoint Blockade.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/24<br />
|style="padding:.4em;"|17-28<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.12.022 Systemic Immunity Is Required for Effective Cencer Immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-27<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.020 Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/17<br />
|style="padding:.4em;"|17-26<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.018 Host and Environmental Factors Influencing Individual Human Cytokine Responses.]<br />
|-<br />
|style="padding:.4em;"|17-25<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.017 A Functional Genomics Approach to Understand Variation in Cytokine Production in Humans.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/26<br />
|style="padding:.4em;"|17-24<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2FNMETH.4177 Pooled CRISPR screening with single-cell transcriptome readout.]<br />
|-<br />
|style="padding:.4em;"|17-23<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.039 Dissecting Immune Circuits by Linking CRISPR-Pooled Screens with Single-Cell RNA-Seq.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/12<br />
|style="padding:.4em;"|17-22<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.038 Perturb-Seq: Dissecting Molecular Circuits with Scalable Single-Cell RNA Profiling of Pooled Genetic Screens.]<br />
|-<br />
|style="padding:.4em;"|17-21<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnbt.3569 Wishbone identifies bifurcating developmental trajectories from single-cell data.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/05<br />
|style="padding:.4em;"|17-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2017/02/21/110668 Reversed graph embedding resolves complex single-cell developmental trajectories.]<br />
|-<br />
|style="padding:.4em;"|17-19<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnmeth.4150 Single-cell mRNA quantification and differential analysis with Census.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/29<br />
|style="padding:.4em;"|17-18<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.060 Single-Cell Transcriptomic Analysis Defines Heterogeneity and Transcriptional Dynamics in the Adult Neural Stem Cell Lineage.]<br />
|-<br />
|style="padding:.4em;"|17-17<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26051941 Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/22<br />
|style="padding:.4em;"|17-16<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27580035 Single-cell analysis of mixed-lineage states leading to a binary cell fate choice.]<br />
|-<br />
|style="padding:.4em;"|17-15<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27281220 Dissecting direct reprogramming from fibroblast to neuron using single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/15<br />
|style="padding:.4em;"|17-14<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1126%2Fscience.aad0501 Dissecting the multicellular ecosystem of metastatic melanoma by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|17-13<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26084335 Single-cell mRNA sequencing identifies subclonal heterogeneity in anti-cancer drug responses of lung adenocarcinoma cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/28<br />
|style="padding:.4em;"|17-12<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27824113 A Comprehensive Characterization of the Function of LincRNAs in Transcriptional Regulation Through Long-Range Chromatin Interactions.]<br />
|-<br />
|style="padding:.4em;"|17-11<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27851969 Epigenomic Deconvolution of Breast Tumors Reveals Metabolic Coupling between Constituent Cell Types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/21<br />
|style="padding:.4em;"|17-10<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/12/30/097451 Convergence of dispersed regulatory mutations predicts driver genes in prostate cancer.]<br />
|-<br />
|style="padding:.4em;"|17-09<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27723759 Chromatin structure-based prediction of recurrent noncoding mutations in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/07<br />
|style="padding:.4em;"|17-08<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/17/088286 Somatic Mutations and Neoepitope Homology in Melanomas Treated with CTLA-4 Blockade.]<br />
|-<br />
|style="padding:.4em;"|17-07<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/28/090134 Chemotherapy weakly contributes to predicted neoantigen expression in ovarian cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/31<br />
|style="padding:.4em;"|17-06<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27912059 Microbiota Diurnal Rhythmicity Programs Host Transcriptome Oscillations.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/24<br />
|style="padding:.4em;"|17-05<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27851914 Transcriptional Landscape of Human Tissue Lymphocytes Unveils Uniqueness of Tumor-Infiltrating T Regulatory Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/01/17<br />
|style="padding:.4em;"|17-04<br />
|style="padding:.4em;"|HJ Han <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/25938943 Mapping long-range promoter contacts in human cells with high-resolution capture Hi-C]<br />
|-<br />
|style="padding:.4em;"|17-03<br />
|style="padding:.4em;"|EB Kim <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27306882 CHiCAGO: robust detection of DNA looping interactions in Capture Hi-C data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/10<br />
|style="padding:.4em;"|17-02<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26527291 ZIFA: Dimensionality reduction for zero-inflated single-cell gene expression analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/03<br />
|style="padding:.4em;"|17-01<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26287467 Single-cell messenger RNA sequencing reveals rare intestinal cell types]<br />
|-<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2016<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/27<br />
|style="padding:.4em;"|2016-31<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25664528 Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/6<br />
|style="padding:.4em;"|2016-30<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26299571 Single-Cell RNA-Seq with Waterfall Reveals Molecular Cascades underlying Adult Neurogenesis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/29<br />
|style="padding:.4em;"|2016-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24658644 The dynamics and regulators of cell fate decisions are revealed by pseudotemporal ordering of single cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/22<br />
|style="padding:.4em;"|2016-28<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26887813 Classification of low quality cells from single-cell RNA-seq data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/15<br />
|style="padding:.4em;"|2016-27<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000487 Droplet barcoding for single-cell transcriptomics applied to embryonic stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/8<br />
|style="padding:.4em;"|2016-26<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000488 Highly Parallel Genome-wide Expression Profiling of Individual Cells Using Nanoliter Droplets.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/1<br />
|style="padding:.4em;"|2016-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27426982 Causal Mechanistic Regulatory Network for Glioblastoma Deciphered Using Systems Genetics Network Analysis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/25<br />
|style="padding:.4em;"|2016-24<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27549193 Comprehensive analyses of tumor immunity: implications for cancer immunotherapy.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/11<br />
|style="padding:.4em;"|2016-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=sidespread+parainflammation Widespread parainflammation in human cancer]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/27<br />
|style="padding:.4em;"|2016-22<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27535533 Analysis of protein-coding genetic variation in 60,706 humans]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/20<br />
|style="padding:.4em;"|2016-21<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
Functional characterization of somatic mutations in cancer using network-based inference of protein activity<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27322546 pubmed]<br />
[http://www.nature.com/ng/journal/v48/n8/full/ng.3593.html fulltext]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/13<br />
|style="padding:.4em;"|2016-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=exploiting+single-cell+expression+to+characterize Exploiting single-cell expression to characterize co-expression replicability.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/6<br />
|style="padding:.4em;"|2016-19<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26940869 Clonal neoantigens elicit T cell immunoreactivity and sensitivity to immune checkpoint blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/31<br />
|style="padding:.4em;"|2016-18<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27264179 A Computational Drug Repositioning Approach for Targeting Oncogenic Transcription Factors]<br />
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|style="padding:.4em;" rowspan=1|2016/8/16<br />
|style="padding:.4em;"|2016-17<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27309802 The landscape of accessible chromatin in mammalian preimplantation embryos]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/8<br />
|style="padding:.4em;"|2016-16<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27064255 Enhancer-promoter interactions are encoded by complex genomic signatures on looping chromatin]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/1<br />
|style="padding:.4em;"|2016-15<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27040498 Personalized Immunomonitoring Uncovers Molecular Networks that Stratify Lupus Patients]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/25<br />
|style="padding:.4em;"|2016-14<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=integration+of+summary+data+from+gwas+and+eqtl+studies Integration of summary data from GWAS and eQTL studies predicts complex trait gene targets]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/18<br />
|style="padding:.4em;"|2016-13<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23624555 Identification of transcriptional regulators in the mouse immune system]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/6/8<br />
|style="padding:.4em;"|2016-12<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26619012 Mapping the effects of drugs on the immune system]<br />
|-<br />
|style="padding:.4em;"| 2016-11<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26186195 Elucidating compound mechanism of action by network perturbation analysis]<br />
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|style="padding:.4em;" rowspan=2|2016/6/1<br />
|style="padding:.4em;"|2016-10<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26854917 Integrative approaches for large-scale transcriptome-wide association studies]<br />
|-<br />
|style="padding:.4em;"| 2016-9<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26950747 Tissue-specific regulatory circuits reveal variable modular perturbations across complex diseases]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/18<br />
|style="padding:.4em;"|2016-8<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27013732 Survey of variation in human transcription factors reveals prevalent DNA binding changes]<br />
|-<br />
|style="padding:.4em;"| 2016-7<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26502339 Large-scale identification of sequence variants influencing human transcription factor occupancy in vivo]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/11<br />
|style="padding:.4em;"|2016-6<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25171417 Predicting Cancer-specific vulnerability via data-driven detection of synthetic lethality]<br />
|-<br />
|style="padding:.4em;"| 2016-5<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23467089 Dynamic regulatory network controlling Th17 cell differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/4<br />
|style="padding:.4em;"|2016-4<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25853550 Characterization of the immunophenotypes and antigenomes of colorectal cancers reveals distinct tumor escape mechanisms and novel targets for immunotherapy]<br />
|-<br />
|style="padding:.4em;"| 2016-3<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26618344 Regulators of genetic risk of breast cancer identified by integrative network analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/4/27<br />
|style="padding:.4em;"|2016-2<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26780608 A predictive computational framework for direct reprogramming between human cell types]<br />
|-<br />
|style="padding:.4em;"| 2016-1<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25126793 CellNet: Network biology applied to stem cell engineering]<br />
|}<br />
<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2015<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/06/11<br />
|style="padding:.4em;"|2015-55<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/24/2/340.long Improved exome prioritization of disease genes through cross-species phenotype comparison.]<br />
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|style="padding:.4em;"|2015-54<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0002929714001128 Phevor combines multiple biomedical ontologies for accurate identification of disease-causing alleles in single individuals and small nuclear families.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/06/04<br />
|style="padding:.4em;"|2015-53<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2656.html eXtasy: variant prioritization by genomic data fusion.]<br />
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|style="padding:.4em;"|2015-52<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/21/9/1529.long A probabilistic disease-gene finder for personal genomes.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/28<br />
|style="padding:.4em;"|2015-51<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n12/full/ng.3141.html Systematic analysis of noncoding somatic mutations and gene expression alterations across 14 tumor types.]<br />
|-<br />
|style="padding:.4em;"|2015-50<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v28/n5/full/nbt.1630.html GREAT improves functional interpretation of cis-regulatory regions.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/21<br />
|style="padding:.4em;"|2015-49<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n3/full/nmeth.2832.html Functional annotation of noncoding sequence variants.]<br />
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|style="padding:.4em;"|2015-48<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/15/10/480 FunSeq2: A framework for prioritizing noncoding regulatory variants in cancer.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/14<br />
|style="padding:.4em;"|2015-47<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v12/n2/full/nmeth.3215.html Selecting causal genes from genome-wide association studies via functionally coherent subnetworks.]<br />
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|style="padding:.4em;"|2015-46<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2015/150119/ncomms6890/full/ncomms6890.html Biological interpretation of genome-wide association studies using predicted gene functions.]<br />
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|style="padding:.4em;" rowspan=3|2015/05/07<br />
|style="padding:.4em;"|2015-45<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/140626/ncomms5212/full/ncomms5212.html Human symptoms-disease network.]<br />
|-<br />
|style="padding:.4em;"|2015-44<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413010246 A nondegenerate code of deleterious variants in Mendelian loci contributes to complex disease risk.]<br />
|-<br />
|style="padding:.4em;"|2015-43<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/347/6224/1257601.long Uncovering disease-disease relationships through the incomplete interactome.]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/04/30<br />
|style="padding:.4em;"|2015-42<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/142.long The discovery of integrated gene networks for autism and related disorders.]<br />
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|style="padding:.4em;"|2015-41<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/12/774.long Integrated systems analysis reveals a molecular network underlying autism spectrum disorders.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/04/23<br />
|style="padding:.4em;"|2015-40<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature13990.html Dissecting neural differentiation regulatory networks through epigenetic footprinting.]<br />
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|style="padding:.4em;"|2015-39<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14221.html Cell-of-origin chromatin organization shapes the mutational landscape of cancer.]<br />
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|style="padding:.4em;"|2015-38<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14248.html Integrative analysis of 111 reference human epigenomes.]<br />
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|style="padding:.4em;" rowspan=2|2015/04/09<br />
|style="padding:.4em;"|2015-37<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/246.long Genome-wide analysis of local chromatin packing in Arabidopsis thaliana.]<br />
|-<br />
|style="padding:.4em;"|2015-36<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014974 A 3D map of the human genome at kilobase resolution reveals principles of chromatin looping.]<br />
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|style="padding:.4em;" rowspan=2|2015/04/02<br />
|style="padding:.4em;"|2015-35<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v14/n6/full/nrg3454.html Exploring the three-dimensional organization of genomes: interpreting chromatin interaction data.]<br />
|-<br />
|style="padding:.4em;"|2015-34<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/347/6225/1010.long Transcribed enhancers lead waves of coordinated transcription in transitioning mammalian cells.]<br />
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|style="padding:.4em;" rowspan=2|2015/03/26<br />
|style="padding:.4em;"|2015-33<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/257.long Cupid: simultaneous reconstruction of microRNA-target and ceRNA networks.]<br />
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|style="padding:.4em;"|2015-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/41.long Characterization of the neural stem cell gene regulatory network identifies OLIG2 as a multifunctional regulator of self-renewal.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/03/19<br />
|style="padding:.4em;"|2015-31<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.3154.html Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;"|2015-30<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v16/n3/full/nrg3833.html Computational and analytical challenges in single-cell transcriptomics.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/12<br />
|style="padding:.4em;"|2015-29<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867415000136 Extensive Strain-Level Copy-Number Variation across Human Gut Microbiome Species.]<br />
|-<br />
|style="padding:.4em;"|2015-28<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v500/n7464/full/nature12506.html Richness of human gut microbiome correlates with metabolic markers.]<br />
|-<br />
|style="padding:.4em;"|2015-27<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v490/n7418/full/nature11450.html A metagenome-wide association study of gut microbiota in type 2 diabetes.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/09<br />
|style="padding:.4em;"|2015-26<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003326 Practical guidelines for the comprehensive analysis of ChIP-seq data.]<br />
|-<br />
|style="padding:.4em;"|2015-25<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/5/777.long Patterns of regulatory activity across diverse human cell types predict tissue identity, transcription factor binding, and long-range interactions.]<br />
|-<br />
|style="padding:.4em;"|2015-24<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/11/760.long Rapid neurogenesis through transcriptional activation in human stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/02<br />
|style="padding:.4em;"|2015-23<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414011787 Genome-Scale CRISPR-Mediated Control of Gene Repression and Activation.]<br />
|-<br />
|style="padding:.4em;"|2015-22<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1004237 Integrating multiple genomic data to predict disease-causing nonsynonymous single nucleotide variants in exome sequencing studies.]<br />
|-<br />
|style="padding:.4em;"|2015-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v45/n6/full/ng.2653.html The Genotype-Tissue Expression (GTEx) project.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/24<br />
|style="padding:.4em;"|2015-20<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/346/6212/1007.long Mouse regulatory DNA landscapes reveal global principles of cis-regulatory evolution.]<br />
|-<br />
|style="padding:.4em;"|2015-19<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13985.html Principles of regulatory information conservation between mouse and human.]<br />
|-<br />
|style="padding:.4em;"|2015-18<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13972.html Conservation of trans-acting circuitry during mammalian regulatory evolution.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/16<br />
|style="padding:.4em;"|2015-17<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature13835.html Genetic and epigenetic fine mapping of causal autoimmune disease variants.]<br />
|-<br />
|style="padding:.4em;"|2015-16<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n3/full/ng.2892.html A general framework for estimating the relative pathogenicity of human genetic variants.]<br />
|-<br />
|style="padding:.4em;"|2015-15<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003825 A probabilistic model to predict clinical phenotypic traits from genome sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2015/02/02<br />
|style="padding:.4em;"|2015-14<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/22/E2329.long Relating the metatranscriptome and metagenome of the human gut.]<br />
|-<br />
|style="padding:.4em;"|2015-13<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v513/n7516/full/nature13568.html Alterations of the human gut microbiome in liver cirrhosis.]<br />
|-<br />
|style="padding:.4em;"|2015-12<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2942.html An integrated catalog of reference genes in the human gut microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-11<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2939.html Identification and assembly of genomes and genetic elements in complex metagenomic samples without using reference genomes.]<br />
|-<br />
|style="padding:.4em;" rowspan=5|2015/01/26<br />
|style="padding:.4em;"|2015-10<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/9/1/666.long Computational meta'omics for microbial community studies.]<br />
|-<br />
|style="padding:.4em;"|2015-09<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/5/7/65 Functional profiling of the gut microbiome in disease-associated inflammation.]<br />
|-<br />
|style="padding:.4em;"|2015-08<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S016895251200145X Biodiversity and functional genomics in the human microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-07<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002808 Chapter 12: Human Microbiome Analysis.]<br />
|-<br />
|style="padding:.4em;"|2015-06<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.cell.com/cell/abstract/S0092-8674%2814%2900864-2 Conducting a Microbiome Study.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/01/12<br />
|style="padding:.4em;"|2015-05<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/141210/ncomms6522/full/ncomms6522.html Small RNA changes en route to distinct cellular states of induced pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-04<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14046.html Genome-wide characterization of the routes to pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-03<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14047.html Divergent reprogramming routes lead to alternative stem-cell states.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/01/05<br />
|style="padding:.4em;"|2015-02<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/21/E2191.long Global view of enhancer-promoter interactome in human cells.]<br />
|-<br />
|style="padding:.4em;"|2015-01<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://nar.oxfordjournals.org/content/41/22/10391.long Combining Hi-C data with phylogenetic correlation to predict the target genes of distal regulatory elements in human genome.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2014<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/23<br />
|style="padding:.4em;"|2014-41<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413012270 Super-enhancers in the control of cell identity and disease.]<br />
|-<br />
|style="padding:.4em;"|2014-40<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413003929 Master transcription factors and mediator establish super-enhancers at key cell identity genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2014/12/09<br />
|style="padding:.4em;"|2014-39<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414013713 Unraveling the biology of a fungal meningitis pathogen using chemical genetics.]<br />
|-<br />
|style="padding:.4em;"|2014-38<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014226 A proteome-scale map of the human interactome network.]<br />
|-<br />
|style="padding:.4em;"|2014-37<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/9/752.long The role of the interactome in the maintenance of deleterious variability in human populations.]<br />
|-<br />
|style="padding:.4em;"|2014-36<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/342/6154/1235587.long Integrative annotation of variants from 1092 humans: application to cancer genomics.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/02<br />
|style="padding:.4em;"|2014-35<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/8/1319.long Mapping functional transcription factor networks from gene expression data.]<br />
|-<br />
|style="padding:.4em;"|2014-34<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v15/n7/full/nrg3684.html In pursuit of design principles of regulatory sequences.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/25<br />
|style="padding:.4em;"|2014-33<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/3/6/36 Epigenomics of human embryonic stem cells and induced pluripotent stem cells: insights into pluripotency and implications for disease.]<br />
|-<br />
|style="padding:.4em;"|2014-32<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S009286741300891X Developmental fate and cellular maturity encoded in human regulatory DNA landscapes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/18<br />
|style="padding:.4em;"|2014-31<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/6/8/64 The 'dnet' approach promotes emerging research on cancer patient survival.]<br />
|-<br />
|style="padding:.4em;"|2014-30<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414010368 Determination and inference of eukaryotic transcription factor sequence specificity.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/11/11<br />
|style="padding:.4em;"|2014-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/110/16/6412.long Transcription factors interfering with dedifferentiation induce cell type-specific transcriptional profiles.]<br />
|-<br />
|style="padding:.4em;"|2014-28<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009350 Dissecting engineered cell types and enhancing cell fate conversion via CellNet.]<br />
|-<br />
|style="padding:.4em;"|2014-27<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009349 CellNet: network biology applied to stem cell engineering.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/04<br />
|style="padding:.4em;"|2014-26<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009775 Predicting Cancer-Specific Vulnerability via Data-Driven Detection of Synthetic Lethality.]<br />
|-<br />
|style="padding:.4em;"|2014-25<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n9/full/nmeth.3046.html Phen-Gen: combining phenotype and genotype to analyze rare disorders.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/10/28<br />
|style="padding:.4em;"|2014-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.2877.html A community effort to assess and improve drug sensitivity prediction algorithms.]<br />
|-<br />
|style="padding:.4em;"|2014-23<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n9/full/ng.3051.html Multi-tiered genomic analysis of head and neck cancer ties TP53 mutation to 3p loss.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/30<br />
|style="padding:.4em;"|2014-22<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2651.html Network-based stratification of tumor mutations.]<br />
|-<br />
|style="padding:.4em;"|2014-21<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414001457 Synonymous mutations frequently act as driver mutations in human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/23<br />
|style="padding:.4em;"|2014-20<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003460 VarWalker: Personalized Mutation Network Analysis of Putative Cancer Genes from Next-Generation Sequencing Data.]<br />
|-<br />
|style="padding:.4em;"|2014-19<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/13/12/R124 DriverNet: uncovering the impact of somatic driver mutations on transcriptional networks in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/16<br />
|style="padding:.4em;"|2014-18<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/14/5/R52 Integrated analysis of recurrent properties of cancer genes to identify novel drivers.]<br />
|-<br />
|style="padding:.4em;"|2014-17<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/4/11/89 Improving the prediction of the functional impact of cancer mutations by baseline tolerance transformation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/02<br />
|style="padding:.4em;"|2014-16<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23228031 A network module-based method for identifying cancer prognostic signatures.]<br />
|-<br />
|style="padding:.4em;"|2014-15<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24429628 Realizing the promise of cancer predisposition genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/19<br />
|style="padding:.4em;"|2014-14<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24952901 Assessing the clinical utility of cancer genomic and proteomic data across tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-13<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24132290 Mutational landscape and significance across 12 major cancer types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/12<br />
|style="padding:.4em;"|2014-12<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23945592 Signatures of mutational processes in human cancer.]<br />
|-<br />
|style="padding:.4em;"|2014-11<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24390350 Discovery and saturation analysis of cancer genes across 21 tumour types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/05<br />
|style="padding:.4em;"|2014-10<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24084849 Comprehensive identification of mutational cancer driver genes across 12 tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-9<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24037244 IntOGen-mutations identifies cancer drivers across tumor types.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/29<br />
|style="padding:.4em;"|2014-8<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23900255 Computational approaches to identify functional genetic variants in cancer genomes.]<br />
|-<br />
|style="padding:.4em;"|2014-7<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23770567 Mutational heterogeneity in cancer and the search for new cancer-associated genes.]<br />
|-<br />
|style="padding:.4em;"|2014-6<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n4/abs/nmeth.2891.html Cancer genomes: discerning drivers from passengers]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/22<br />
|style="padding:.4em;"|2014-5<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24071849 The Cancer Genome Atlas Pan-Cancer analysis project.]<br />
|-<br />
|style="padding:.4em;"|2014-4<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23539594 Cancer genome landscapes.]<br />
|-<br />
|style="padding:.4em;"|2014-3<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=21900272 Distinguishing driver and passenger mutations in an evolutionary history categorized by interference.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/07/15<br />
|style="padding:.4em;"|2014-2<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670764 A promoter-level mammalian expression atlas.]<br />
|-<br />
|style="padding:.4em;"|2014-1<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670763 An atlas of active enhancers across human cell types and tissues.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2013<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/26<br />
|style="padding:.4em;"|2013-31<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://nar.oxfordjournals.org/content/40/16/7690.long Integration of Hi-C and ChIP-seq data reveals distinct types of chromatin linkages]<br />
|-<br />
|style="padding:.4em;"|2013-30<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n4/full/nbt.2519.html Deciphering molecular circuits from genetic variation underlying transcriptional responsiveness to stimuli]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/04<br />
|style="padding:.4em;"|2013-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|[https://www.cell.com/abstract/S0092-8674(13)00439-X Mapping the Human miRNA Interactome by CLASH Reveals Frequent Noncanonical Binding]<br />
|-<br />
|style="padding:.4em;"|2013-28<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n3/full/nbt.2514.html Sensitive detection of somatic point mutations in impure and heterogeneous cancer samples]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/28<br />
|style="padding:.4em;"|2013-27<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.pnas.org/content/102/38/13544.long Discovering statistically significant pathways in expression profiling studies]<br />
|-<br />
|style="padding:.4em;"|2013-26<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0058977 Prediction and Validation of Gene-Disease Associations Using Methods Inspired by Social Network Analyses]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/21<br />
|style="padding:.4em;"|2013-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v496/n7446/full/nature11981.html Dynamic regulatory network controlling TH17 cell differentiation]<br />
|-<br />
|style="padding:.4em;"|2013-24<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412013529 Deciphering and Prediction of Transcriptome Dynamics under Fluctuating Field Conditions]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/14<br />
|style="padding:.4em;"|2013-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412015565 Integrative eQTL-Based Analyses Reveal the Biology of Breast Cancer Risk Loci]<br />
<br />
|-<br />
|style="padding:.4em;"|2013-22<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v45/n2/full/ng.2504.html Chromatin marks identify critical cell types for fine mapping complex trait variants]<br />
|-<br />
|style="padding:.4em;" rowspan=2|'''2013/05/07'''<br />
|style="padding:.4em;"|2013-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01555-3 Genome-wide Chromatin State Transitions Associated with Developmental and Environmental Cues]<br />
|-<br />
|style="padding:.4em;"|2013-20<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1003201 Human Disease-Associated Genetic Variation Impacts Large Intergenic Non-Coding RNA Expression]<br />
|-<br />
|style="padding:.4em;"|2013/04/09<br />
|style="padding:.4em;"|2013-19<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1790.long Annotation of functional variation in personal genomes using RegulomeDB]<br />
|-<br />
|style="padding:.4em;"|2013/04/02<br />
|style="padding:.4em;"|2013-18<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1775.long The GENCODE v7 catalog of human long noncoding RNAs: Analysis of their gene structure, evolution, and expression]<br />
|-<br />
|style="padding:.4em;" |2013/03/12<br />
|style="padding:.4em;"|2013-17<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002311 Global Mapping of Cell Type–Specific Open Chromatin by FAIRE-seq Reveals the Regulatory Role of the NFI Family in Adipocyte Differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/03/05<br />
|style="padding:.4em;"|2013-16<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nrg/journal/v10/n10/full/nrg2641.html ChIP–seq: advantages and challenges of a maturing technology]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/21<br />
|style="padding:.4em;"|2013-15<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002830 Novel Modeling of Combinatorial miRNA Targeting Identifies SNP with Potential Role in Bone Density]<br />
|-<br />
|style="padding:.4em;"|2013-14<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01424-9 A Molecular Roadmap of Reprogramming Somatic Cells into iPS Cells]<br />
|-<br />
|style="padding:.4em;"|2013-13<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/6/1015.long Differential DNase I hypersensitivity reveals factor-dependent chromatin dynamics.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/15<br />
|style="padding:.4em;"|2013-12<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v43/n3/full/ng.759.html Chromatin accessibility pre-determines glucocorticoid receptor binding patterns]<br />
|-<br />
|style="padding:.4em;"|2013-11<br />
|style="padding:.4em;"| JE Shim, CY Kim <br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v30/n11/full/nbt.2422.html Interpreting noncoding genetic variation in complex traits and human disease]<br />
|-<br />
|style="padding:.4em;"|2013-10<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/21/3/447.full.pdf+html Accurate inference of transcription factor binding from DNA sequence and chromatin accessibility data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/08<br />
|style="padding:.4em;"|2013-09<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002599 Widespread Site-Dependent Buffering of Human Regulatory Polymorphism]<br />
|-<br />
|style="padding:.4em;"|2013-08<br />
|style="padding:.4em;"|JE Shim, CY Kim<br />
|style="padding:.4em;text-align:left;"|[http://genome.cshlp.org/content/22/9/1748.long Linking disease associations with regulatory information in the human genome]<br />
|-<br />
|style="padding:.4em;"|2013-07<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1658.long Understanding transcriptional regulation by integrative analysis of transcription factor binding data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/01/25<br />
|style="padding:.4em;"|2013-06<br />
|style="padding:.4em;"|HJ Han, '''JH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11279.html The long-range interaction landscape of gene promoters]<br />
|-<br />
|style="padding:.4em;"|2013-05<br />
|style="padding:.4em;"|'''ER Kim''', HS Shim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11233.html Landscape of transcription in human cells]<br />
|-<br />
|style="padding:.4em;"|2013-04<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11245.html Architecture of the human regulatory network derived from ENCODE data]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/01/18<br />
|style="padding:.4em;"|2013-03<br />
|style="padding:.4em;"|KS Kim, '''TH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11212.html An expansive human regulatory lexicon encoded in transcription factor footprints]<br />
|-<br />
|style="padding:.4em;"|2013-02<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11232.html The accessible chromatin landscape of the human genome]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/01/11<br />
|style="padding:.4em;"|2013-01<br />
|style="padding:.4em;"| '''JE Shim''', CY Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11247.html An integrated encyclopedia of DNA elements in the human genome]<br />
|}<br />
<br />
2012<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc; padding:5px;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper title<br />
|-<br />
|rowspan = "1"|2013/01/11<br />
|align ="center"|2012-81<br />
|[http://genome.cshlp.org/content/22/8/1589.full (TH Kim) MuSiC: identifying mutational significance in cancer genomes.]<br />
|-<br />
|rowspan = "1"|2012/12/04<br />
|align ="center"|2012-80<br />
|[http://genome.cshlp.org/content/22/8/1383 (CY KIM) Human genomic disease variants: A neutral evolutionary explanation]<br />
|-<br />
|rowspan = "2"|2012/11/20<br />
| align="center"|2012-79<br />
|[http://www.cell.com/abstract/S0092-8674(12)00639-3 (HS Shim) Circuitry and Dynamics of Human Transcription Factor Regulatory Networks]<br />
|-<br />
| align="center"|2012-78<br />
|[http://www.nature.com/nature/journal/v487/n7408/full/nature11288.html (HJ Kim) Interpreting cancer genomes using systematic host network perturbations by tumour virus proteins]<br />
|-<br />
|rowspan = "2"|2012/11/06<br />
| align="center"|2012-77<br />
|[http://www.sciencemag.org/content/337/6099/1190.short (HJ Han) Systematic Localization of Common Disease-Associated Variation in Regulatory DNA]<br />
|-<br />
| align="center"|2012-76<br />
|[http://www.pnas.org/cgi/doi/10.1073/pnas.1201904109 (KS Kim) A public resource facilitating clinical use of genomes] <br />
|-<br />
|rowspan = "6" |2012/07/19<br />
| align="center"|2012-75<br />
|[http://genome.cshlp.org/content/22/7/1334 (HJ Han & YH Ko) Predictive regulatory models in Drosophila melanogaster by integrative inference of transcriptional networks]<br />
|-<br />
| align="center"|2012-74 <br />
|[http://www.sciencemag.org/content/337/6090/100.full (JE Shim) An Abundance of Rare Functional Variants in 202 Drug Target Genes Sequenced in 14,002 People] <br />
|-<br />
| align="center"|2012-73<br />
|[http://www.sciencemag.org/content/337/6090/64.abstract (JE Shim) Evolution and Functional Impact of Rare Coding Variation from Deep Sequencing of Human Exomes]<br />
|-<br />
| align="center"|2012-72<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2063581/ (SH Hwang) Network-based classification of breast cancer metastasis]<br />
|-<br />
| align="center"|2012-71<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002707 (T Lee&CY Kim)Brain Expression Genome-Wide Association Study (eGWAS) Identifies Human Disease-Associated Variants]<br />
|-<br />
| align="center"|2012-70<br />
|[http://genome.cshlp.org/content/20/9/1297 (ER Kim&TH Kim)The Genome Analysis Toolkit: A MapReduce framework for analyzing next-generation DNA sequencing data]<br />
|-<br />
|rowspan = "8" |2012/07/16<br />
| align="center"|2012-69<br />
|[http://www.nature.com/ng/journal/v43/n5/full/ng.806.html (ER Kim&TH Kim)A framework for variation discovery and genotyping using next-generation DNA sequencing data]<br />
|-<br />
| align="center"|2012-66<br />
|[http://bioinformatics.oxfordjournals.org/content/25/16/2078.long (ER Kim&TH Kim)The Sequence Alignment/Map format and SAMtools]<br />
|-<br />
| align="center"|2012-65<br />
|[http://bioinformatics.oxfordjournals.org/content/early/2011/06/07/bioinformatics.btr330 (ER Kim&TH Kim)The Variant Call Format and VCFtools]<br />
|-<br />
| align="center"|2012-64<br />
|[http://www.cell.com/abstract/S0092-8674(12)00104-3 (YH Go&HJ Han)The Impact of the Gut Microbiota on Human Health: An Integrative View]<br />
|-<br />
|align="center"|2012-63<br />
|[http://www.sciencemag.org/content/336/6086/1262.abstract (T Lee&CY Kim)Host-Gut Microbiota Metabolic Interactions]<br />
|-<br />
|align="center"|2012-62<br />
|[http://www.sciencemag.org/content/336/6086/1268.full (AR Cho,JH Ju)Interactions Between the Microbiota and the Immune System]<br />
|-<br />
|align="center"|2012-61<br />
|[http://www.sciencemag.org/content/336/6086/1255.abstract (SH Hwang&HJ Cho)The Application of Ecological Theory Toward an Understanding of the Human Microbiome]<br />
|-<br />
|align="center"|2012-60<br />
|[http://stm.sciencemag.org/content/4/137/137rv5 (SH Hwang&HJ Cho)Microbiota-Targeted Therapies: An Ecological Perspective]<br />
|-<br />
|rowspan = "3" |2012/07/13<br />
|align="center"|2012-59<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002358 (JH Shin&HJ Kim)Metabolic Reconstruction for Metagenomic Data and Its Application to the Human Microbiome]<br />
|-<br />
| align="center"|2012-58<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11209.html (JH Shin&HJ Kim)A framework for human microbiome research]<br />
|-<br />
|align="center"|2012-57<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11234.html (JH Shin&HJ Kim)Structure, function and diversity of the healthy human microbiome]<br />
|-<br />
|rowspan = "4" |2012/07/12<br />
|align="center"|2012-56<br />
|[http://nar.oxfordjournals.org/content/40/D1/D957.long (AR Cho&JH Ju)COLT-Cancer: functional genetic screening resource for essential genes in human cancer cell lines]<br />
|-<br />
|align="center"|2012-55<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1002511 (YH Go&HJ Han)Google Goes Cancer: Improving Outcome Prediction for Cancer Patients by Network-Based Ranking of Marker Genes]<br />
|-<br />
| align="center"|2012-54<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201147.html (YH Go&HJ Han)A pharmacogenomic method for individualized prediction of drug sensitivity]<br />
|-<br />
|align="center"|2012-53<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10983.html (JH Soh)The genomic and transcriptomic architecture of 2,000 breast tumours reveals novel subgroups]<br />
|-<br />
|rowspan = "6" |2012/07/09<br />
|align="center"|2012-52<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11003.html (ER Kim&TH Kim)The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity]<br />
|-<br />
|align="center"|2012-51<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11005.html (ER Kim&TH Kim)Systematic identification of genomic markers of drug sensitivity in cancer cells]<br />
|-<br />
| align="center"|2012-50<br />
|[http://www.pnas.org/content/early/2011/10/13/1018854108.abstract (ER Kim&TH Kim)Subtype and pathway specific responses to anticancer compounds in breast cancer]<br />
|-<br />
|align="center"|2012-49<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10945.html (JE Shim&KS Kim)De novo mutations revealed by whole-exome sequencing are strongly associated with autism]<br />
|-<br />
|align="center"|2012-48<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature11011.html (JE Shim&KS Kim)Patterns and rates of exonic de novo mutations in autism spectrum disorders]<br />
|-<br />
|align="center"|2012-47<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10989.html (JE Shim&KS Kim)Sporadic autism exomes reveal a highly interconnected protein network of de novo mutations]<br />
|-<br />
|rowspan = "6" |2012/07/06<br />
| align="center"|2012-46<br />
|[http://www.g3journal.org/content/1/3/233.full (T Lee&CY Kim)Integrating Rare-Variant Testing, Function Prediction, and Gene Network in Composite Resequencing-Based Genome-Wide Association Studies (CR-GWAS)]<br />
|-<br />
|align="center"|2012-45<br />
|[http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1002621 (T Lee&CY Kim)Type 2 Diabetes Risk Alleles Demonstrate Extreme Directional Differentiation among Human Populations, Compared to Other Diseases]<br />
|-<br />
|align="center"|2012-44<br />
|[http://www.nature.com/nature/journal/v480/n7376/full/nature10665.html (AR Cho&JH Ju)Predicting mutation outcome from early stochastic variation in genetic interaction partners]<br />
|-<br />
|align="center"|2012-43<br />
|[http://www.sciencemag.org/content/335/6064/82 (AR Cho&JH Ju)Fitness Trade-Offs and Environmentally Induced Mutation Buffering in Isogenic C. elegans]<br />
|-<br />
| align="center"|2012-42<br />
|[http://genome.cshlp.org/content/22/6/1163 (JE Shim&KS Kim)Identification of microRNA-regulated gene networks by expression analysis of target genes]<br />
|-<br />
|align="center"|2012-41<br />
|[http://www.nature.com/ng/journal/v44/n6/full/ng.2303.html (JE Shim&KS Kim)Exome sequencing and the genetic basis of complex traits]<br />
|-<br />
|rowspan = "6" |2012/07/02<br />
|align="center"|2012-40<br />
|[http://www.cell.com/abstract/S0092-8674(12)00573-9 (JH Soh)Functional Repurposing Revealed by Comparing S. pombe and S. cerevisiae Genetic Interactions]<br />
|-<br />
|align="center"|2012-39<br />
|[http://genome.cshlp.org/content/22/2/375.long (ER Kim&TH Kim)De novo discovery of mutated driver pathways in cancer]<br />
|-<br />
| align="center"|2012-38<br />
|[http://www.nature.com/msb/journal/v4/n1/full/msb20082.html (YH Go&HJ Han)A systems biology approach to prediction of oncogenes and molecular perturbation targets in B-cell lymphomas]<br />
|-<br />
|align="center"|2012-37<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201126.html (SH Hwang&HJ Cho)PREDICT: a method for inferring novel drug indications with application to personalized medicine]<br />
|-<br />
|align="center"|2012-36<br />
|[http://www.nature.com/nature/journal/v453/n7198/full/nature06973.html (SH Hwang&HJ Cho)Synergistic response to oncogenic mutations defines gene class critical to cancer phenotype]<br />
|-<br />
|align="center"|2012-35<br />
|[http://www.sciencemag.org/content/334/6062/1518.full (JH Shin&HJ Kim)Detecting Novel Associations in Large Data Sets]<br />
|-<br />
|rowspan = "3" |2012/03/05<br />
| align="center"|2012-34<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|align="center"|2012-33<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|align="center"|2012-32<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |2012/02/27<br />2012/02/28<br />
| align="center"|2012-31<br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|align="center"|2012-30<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|align="center"|2012-29<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|align="center"|2012-28<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|align="center"|2012-27<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|align="center"|2012-26<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|align="center"|2012-25<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |2012/02/06<br />
| align="center"|2012-24<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|align="center"|2012-23<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|align="center"|2012-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|align="center"|2012-21<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|align="center"|2012-20<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |2012/01/30<br />
|align="center"|2012-19<br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|align="center"|2012-18<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|align="center"|2012-17<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|align="center"|2012-16<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|align="center"|2012-15<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />
|align="center"|2012-14<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|align="center"|2012-13<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|align="center"|2012-12<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |2012/01/09<br />2012/01/16<br />
| align="center"|2012-11<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|align="center"|2012-10<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|align="center"|2012-09<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|align="center"|2012-08<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|align="center"|2012-07<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|align="center"|2012-06<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-05<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|align="center"|2012-04<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|align="center"|2012-03<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-02<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|align="center"|2012-01<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|}<br />
2011<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "6" |2011/11/28<br />
|align="center"|2011-49<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|align="center"|2011-48<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|align="center"|2011-47<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|align="center"|2011-46<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|align="center"|2011-45<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|align="center"|2011-44<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" |2011/11/14<br />
|align="center"|2011-43<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|align="center"|2011-42<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|align="center"|2011-41<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" |2011/11/07<br />
|align="center"|2011-40<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|align="center"|2011-39<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|align="center"|2011-38<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|align="center"|2011-37<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" |2011/11/07 <br />
|align="center"|2011-36<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|align="center"|2011-35<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|align="center"|2011-34<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" |2011/10/05<br />
|align="center"|2011-33<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|align="center"|2011-32<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|align="center"|2011-31<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |2011/10/04<br />
|align="center"|2011-30<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|align="center"|2011-29<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|align="center"|2011-28<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|align="center"|2011-27<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |2011/09/19<br />
|align="center"|2011-26<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|align="center"|2011-25<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" |2011/09/05<br />
|align="center"|2011-24<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|align="center"|2011-23<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" |2011/09/22 <br />
|align="center"|2011-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|align="center"|2011-21<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|2011/06/20<br />
|align="center"|2011-20<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |2011/03/30<br />
|align="center"|2011-19<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|align="center"|2011-18<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
|rowspan = "2" |2011/03/16<br />
|align="center"|2011-17<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|align="center"|2011-16<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |2011/04/25<br />
|align="center"|2011-15<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|align="center"|2011-14<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|align="center"|2011-13<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |2011/04/11<br />
|align="center"|2011-12<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|align="center"|2011-11<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|2011/03/28<br />
|align="center"|2011-10<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|align="center"|2011-09<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|2011/03/14<br />
|align="center"|2011-08<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|align="center"|2011-07<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
|rowspan = "2"|2011/02/28<br />
|align="center"|2011-06<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|align="center"|2011-05<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|2011/02/21<br />
|align="center"|2011-04<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|2011/02/14<br />
|align="center"|2011-03<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|2011/01/31<br />
|align="center"|2011-02<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|align="center"|2011-01<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|}<br />
2010<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "2"|2010/12/27<br />
|align="center"|2010-29<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|align="center"|2010-28<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|2010/11/15<br />
|align="center"|2010-27<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|align="center"|2010-26<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|2010/11/01<br />
|align="center"|2010-25<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|align="center"|2010-24<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|2010/10/11<br />
|align="center"|2010-23<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|rowspan = "2"|2010/09/13<br />
|align="center"|2010-22<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
|-<br />
|align="center"|2010-21<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|2010/05/26<br />
|align="center"|2010-20<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|2010/05/19<br />
|align="center"|2010-19<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|2010/04/21<br />
|align="center"|2010-18<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|2010/04/14<br />
|align="center"|2010-17<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |2010/04/07<br />
|align="center"|2010-16<br />
|[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|align="center"|2010-15<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|rowspan="2"|2010/03/31<br />
|align="center"|2010-14<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
|-<br />
|align="center"|2010-13<br />
|[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|2010/03/24<br />
|align="center"|2010-12<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|2010/01/18<br />
|align="center"|2010-11<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|2010/01/16<br />
|align="center"|2010-10<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|2010/01/15<br />
|align="center"|2010-09<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|2010/01/14<br />
|align="center"|2010-08<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|2010/01/13<br />
|align="center"|2010-07<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|2010/01/12<br />
|align="center"|2010-06<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|2010/01/11<br />
|align="center"|2010-05<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|2010/01/09<br />
|align="center"|2010-04<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|2010/01/08<br />
|align="center"|2010-03<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|2010/01/07<br />
|align="center"|2010-02<br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|2010/01/06<br />
|align="center"|2010-01<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
<br />
<br />
<br />
<br />
<!--<br />
{| border ="1"<br />
{| border ="1"<br />
|rowspan = "3" |<br />
|rowspan = "3" |March 5 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |***<br />
|rowspan = "7" |February 27 Mon~28 Tue, 2012<br />
|rowspan = "7" | <br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |February 6 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |January 30 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "6" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "2" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |November 28 Mon, 2011<br />
|rowspan = "6" | TY Oh, <br><br />
SH Hwang, <br><br />
JE Shim, <br><br />
S Beck, <br><br />
JH Shin<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 14 Mon, 2011<br />
|rowspan = "3" | HH Kim & AR Cho<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" | <br />
|rowspan = "4" |November 7 Mon, 2011<br />
|rowspan = "4" | YH Ko<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 7 Mon, 2011<br />
|rowspan = "3" | JW Song<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |October 5 Mon, 2011<br />
|rowspan = "3" | HH Kim<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |<br />
|rowspan = "4" |October 4 Mon, 2011<br />
|rowspan = "4" | S Beck<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |September 19 Mon, 2011<br />
|rowspan = "2" | TY Oh<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" |September 5 Mon, 2011<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|SH Hwang<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" | August 22 Mon, 2011<br />
|ER Kim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|<br />
|June 20 Mon, 2011<br />
|JH Shin<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 30 Mon, 2011<br />
|rowspan = "2" | HH Kim<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 16 Mon, 2011<br />
|rowspan = "2" | AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |April 25 Mon, 2011<br />
|rowspan = "3" |S Beck<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 11 Mon, 2011<br />
|JE Shim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|T Lee<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 28 Mon, 2011<br />
|rowspan = "2"|TY Oh<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 14 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
<br />
|rowspan = "2"|<br />
|rowspan = "2"|February 28 Mon, 2011<br />
|KS Kim<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|HJ Han<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|<br />
|February 21 Mon, 2011<br />
|MH Lee<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|<br />
|February 14 Mon, 2011<br />
|AR Cho<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|January 31 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2" | December 27 Mon, 2010<br />
|ER Kim<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 15 Mon, 2010<br />
|AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 1 Mon, 2010<br />
|HH Kim<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|JH Shin<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|<br />
|October 11 Mon, 2010<br />
|JE Shim<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|<br />
|September 13 Mon, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|<br />
|May 26 Wed, 2010<br />
|AR Cho<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|<br />
|May 19 Wed, 2010<br />
|SG Ji<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|<br />
|April 21 Wed, 2010<br />
|JH Shin<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|<br />
|April 14 Wed, 2010<br />
|TY Oh<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 7 Wed, 2010<br />
|HHkim<br />
|<br />
[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|T Lee<br />
|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|<br />
|Mar 31 Wed, 2010<br />
|JE Shim<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|<br />
|Mar 24 Wed, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|<br />
|Jan 18 Mon, 2010<br />
|TY Oh(T Lee)<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|<br />
|Jan 16 Sat, 2010<br />
|JE Shim(MH Lee)<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|<br />
|Jan 15 Fri, 2010<br />
|SG Ji<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|<br />
|Jan 14 Thu, 2010<br />
|HH kim<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|<br />
|Jan 13 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|<br />
|Jan 12 Tue, 2010<br />
|TY Oh(T Lee)<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|<br />
|Jan 11 Mon, 2010<br />
|JE Shim(MH Lee)<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|<br />
|Jan 09 Sat, 2010<br />
|SG Ji<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|<br />
|Jan 08 Fri, 2010<br />
|AR Cho<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|<br />
|Jan 07 Thu, 2010<br />
|HH Kim <br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|<br />
|Jan 06 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
--></div>
Choiismath
https://netbiolab.org/w/Journal_Club
Journal Club
2022-03-17T14:03:09Z
<p>Choiismath: </p>
<hr />
<div>{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2022-scOmics<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Team<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=1|2022/04/01<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-25<br />
|style="padding:.4em;"|SB Baek <br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/35172892/ Integrating single-cell sequencing data with GWAS summary statistics reveals CD16+monocytes and memory CD8+T cells involved in severe COVID-19]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2022/03/25<br />
|style="padding:.4em;" rowspan=1|Single-cell<br />
|style="padding:.4em;"|22-24<br />
|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34663807/ Single cell T cell landscape and T cell receptor repertoire profiling of AML in context of PD-1 blockade therapy]<br />
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|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34594031/ Systematic investigation of cytokine signaling activity at the tissue and single-cell levels]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34852236/ Neoantigen-driven B cell and CD4 T follicular helper cell collaboration promotes anti-tumor CD8 T cell responses]<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34930412/ MultiMAP: dimensionality reduction and integration of multimodal data]<br />
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|style="padding:.4em;"|IS Choi <br />
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[https://www.biorxiv.org/content/10.1101/2020.10.19.345983v2 CellRank for directed single-cell fate mapping]<br />
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|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34653365/ Single-cell analyses reveal key immune cell subsets associated with response to PD-L1 blockade in triple-negative breast cancer]<br />
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|style="padding:.4em;"|IS Choi<br />
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[https://pubmed.ncbi.nlm.nih.gov/34390642/ Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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|style="padding:.4em;"|EJ Sung <br />
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[https://pubmed.ncbi.nlm.nih.gov/34767762/ Single-cell analysis of human non-small cell lung cancer lesions refines tumor classification and patient stratification]<br />
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|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34914499/ Pan-cancer single-cell landscape of tumor-infiltrating T cells]<br />
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|style="padding:.4em;"|JW Yu <br />
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[https://pubmed.ncbi.nlm.nih.gov/34597583/ Atlas of clinically distinct cell states and ecosystems across human solid tumors]<br />
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|style="padding:.4em;"|SB Baek <br />
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[https://pubmed.ncbi.nlm.nih.gov/34489465/ Single-cell ATAC and RNA sequencing reveal pre-existing and persistent cells associated with prostate cancer relapse]<br />
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[https://journals.asm.org/doi/10.1128/mSystems.00252-19 Comprehensive Analysis Reveals the Evolution and Pathogenicity of Aeromonas, Viewed from Both Single Isolated Species and Microbial Communities]<br />
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|style="padding:.4em;"|HJ Kim <br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-022-02610-4 AGAMEMNON: an Accurate metaGenomics And MEtatranscriptoMics quaNtificatiON analysis suite]<br />
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|style="padding:.4em;"|JH Cha <br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-020-02200-2 Metapangenomics of the oral microbiome provides insights into habitat adaptation and cultivar diversity]<br />
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|style="padding:.4em;"|JY Ma <br />
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[https://genomemedicine.biomedcentral.com/articles/10.1186/s13073-022-01011-3 Microbiota of the prostate tumor environment investigated by whole-transcriptome profiling]<br />
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[https://genomebiology.biomedcentral.com/articles/10.1186/s13059-021-02576-9 Species-resolved sequencing of low-biomass or degraded microbiomes using 2bRAD-M]<br />
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[https://pubmed.ncbi.nlm.nih.gov/34893089/ Microbial co-occurrence complicates associations of gut microbiome with US immigration, dietary intake and obesity]<br />
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[https://pubmed.ncbi.nlm.nih.gov/34517888/ Gut microbial determinants of clinically important improvement in patients with rheumatoid arthritis]<br />
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|style="padding:.4em;"|JH Cha <br />
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[https://pubmed.ncbi.nlm.nih.gov/34880502/ Gut microbiota modulates weight gain in mice after discontinued smoke exposure]<br />
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[https://pubmed.ncbi.nlm.nih.gov/34819672/ The human microbiome encodes resistance to the antidiabetic drug acarbose]<br />
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|style="padding:.4em;"|SH Lee <br />
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[https://pubmed.ncbi.nlm.nih.gov/34618582/ Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis]<br />
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[https://pubmed.ncbi.nlm.nih.gov/34551799/ The influence of the gut microbiome on BCG-induced trained immunity]<br />
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|style="padding:.4em;"|JY Ma <br />
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[https://pubmed.ncbi.nlm.nih.gov/34912116/ Towards the biogeography of prokaryotic genes]<br />
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[https://pubmed.ncbi.nlm.nih.gov/29347966/ ReprDB and panDB: minimalist databases with maximal microbial representation]<br />
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[https://www.cell.com/cell/fulltext/S0092-8674(21)00942-9#secsectitle0025 Chromatin and gene-regulatory dynamics of the developing human cerebral cortex at single-cell resolution]<br />
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[https://www.biorxiv.org/content/10.1101/2021.02.09.430114v2 Single-cell ATAC and RNA sequencing reveal pre-existing and persistent subpopulations of cells associated with relapse of prostate cancer]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://www.biorxiv.org/content/10.1101/2021.03.16.435578v1 Integrated single-cell transcriptomics and epigenomics reveals strong germinal center-associated etiology of autoimmune risk loci]<br />
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[https://www.biorxiv.org/content/10.1101/2021.07.28.453784v1 Functional Inference of Gene Regulation using Single-Cell Multi-Omics]<br />
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[https://www.biorxiv.org/content/10.1101/2021.03.24.436532v1 Single-cell analyses reveal a continuum of cell state and composition changes in the malignant transformation of polyps to colorectal cancer]<br />
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[https://www.cell.com/cancer-cell/fulltext/S1535-6108(21)00165-3 Single-cell sequencing links multiregional immune landscapes and tissue-resident T cells in ccRCC to tumor topology and therapy efficacy]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S1535610821001173 Tumor and immune reprogramming during immunotherapy in advanced renal cell carcinoma]<br />
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[https://www.sciencedirect.com/science/article/pii/S1074761321001199 Single-cell chromatin accessibility landscape identifies tissue repair program in human regulatory T cells]<br />
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[https://www.nature.com/articles/s41591-021-01232-w Identification of resistance pathways and therapeutic targets in relapsed multiple myeloma patients through single-cell sequencing]<br />
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|style="padding:.4em;"|JH Cha<br />
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[https://www.nature.com/articles/s41591-021-01323-8 A single-cell map of intratumoral changes during anti-PD1 treatment of patients with breast cancer]<br />
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[https://www.sciencedirect.com/science/article/abs/pii/S0092867420316135 Single-cell landscape of the ecosystem in early-relapse hepatocellular carcinoma]<br />
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[https://www.nature.com/articles/s41586-021-03552-w Interpreting type 1 diabetes risk with genetics and single-cell epigenomics]<br />
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{|class=wikitable style="text-align:center;"<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867421000726 Massive expansion of human gut bacteriophage diversity]<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312821001451 The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition]<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820306703?dgcid=rss_sd_all Methotrexate impacts conserved pathways in diverse human gut bacteria leading to decreased host immune activation]<br />
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[https://science.sciencemag.org/content/366/6471/eaax9176 A metagenomic strategy for harnessing the chemical repertoire of the human microbiome]<br />
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[https://www.nature.com/articles/s41467-019-10927-1 Predictive metabolomic profiling of microbial communities using amplicon or metagenomic sequences]<br />
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[https://www.nature.com/articles/s41564-018-0306-4 Gut microbiome structure and metabolic activity in inflammatory bowel disease]<br />
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[https://www.nature.com/articles/s41591-020-01183-8 Microbiome connections with host metabolism and habitual diet from 1,098 deeply phenotyped individuals]<br />
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[https://www.nature.com/articles/s41467-020-18476-8 A predictive index for health status using species-level gut microbiome profiling]<br />
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[https://www.nature.com/articles/s41586-019-1237-9 Multi-omics of the gut microbial ecosystem in inflammatory bowel diseases]<br />
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[https://www.nature.com/articles/s41467-021-21475-y Gastrointestinal microbiota composition predicts peripheral inflammatory state during treatment of human tuberculosis]<br />
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[https://www.sciencedirect.com/science/article/pii/S1931312820301694 Structure of the Mucosal and Stool Microbiome in Lynch Syndrome]<br />
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[https://www.nature.com/articles/s41591-020-01223-3 The gut microbiome modulates the protective association between a Mediterranean diet and cardiometabolic disease risk]<br />
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[https://www.nature.com/articles/s41467-019-14177-z Impact of commonly used drugs on the composition and metabolic function of the gut microbiota]<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420305638 Personalized Mapping of Drug Metabolism by the Human Gut Microbiome]<br />
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[https://www.cell.com/fulltext/S0092-8674(17)30107-1 Mining the Human Gut Microbiota for Immunomodulatory Organisms]<br />
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[https://www.nature.com/articles/s41586-020-2095-1 Microbiome analyses of blood and tissues suggest cancer diagnostic approach]<br />
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|style="padding:.4em;" rowspan=1|2021/03/11<br />
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|style="padding:.4em;"|21-9<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://science.sciencemag.org/content/368/6494/973 The human tumor microbiome is composed of tumor type-specific intracellular bacteria]<br />
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{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2021<br />
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|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|21-8<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.nature.com/articles/s41590-020-0784-4 Functional CRISPR dissection of gene networks controlling human regulatory T cell identity]<br />
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|style="padding:.4em;"|21-7<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867420306887 Molecular Pathways of Colon Inflammation Induced by Cancer Immunotherapy]<br />
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|style="padding:.4em;" rowspan=2|2021/02/15<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|21-6<br />
|style="padding:.4em;"|SB Baek<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41588-020-00721-x Single-cell epigenomic analyses implicate candidate causal variants at inherited risk loci for Alzheimer’s and Parkinson’s diseases]<br />
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|style="padding:.4em;"|21-5<br />
|style="padding:.4em;"|IS Choi <br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41467-020-14766-3 Trajectory-based differential expression analysis for single-cell sequencing data]<br />
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|style="padding:.4em;" rowspan=2|2021/02/08<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|21-4<br />
|style="padding:.4em;"|SB Baek <br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41588-018-0156-2 Genetic determinants of co-accessible chromatin regions in activated T cells across humans]<br />
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|style="padding:.4em;"|21-3<br />
|style="padding:.4em;"|JH Cha<br />
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[https://www.sciencedirect.com/science/article/pii/S009286742030341X Single-Cell Analyses Inform Mechanisms of Myeloid-Targeted Therapies in Colon Cancer]<br />
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|style="padding:.4em;" rowspan=2|2021/02/01<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|21-2<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419308967?via%3Dihub Single-Cell Analysis of Crohn's Disease Lesions Identifies a Pathogenic Cellular Module Associated with Resistance to Anti-TNF Therapy]<br />
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|style="padding:.4em;"|21-1<br />
|style="padding:.4em;"|JW Cho<br />
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[https://www.nature.com/articles/s41467-020-15956-9 Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2020-1st semester <br />
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|style="padding:.4em;" rowspan=3|2021/02/01<br />
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|style="padding:.4em;"|20-15<br />
|style="padding:.4em;"|JW Cho<br />
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[https://pubmed.ncbi.nlm.nih.gov/32393797/ Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line]<br />
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|style="padding:.4em;"|20-14<br />
|style="padding:.4em;"|JW Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/30595452/ Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment Within Human Melanoma]<br />
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|style="padding:.4em;"|20-13<br />
|style="padding:.4em;"|JW Seo<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/30388455/ A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
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|style="padding:.4em;" rowspan=2|2020/06/09<br />
|style="padding:.4em;" rowspan=2|-<br />
|style="padding:.4em;"|20-12<br />
|style="padding:.4em;"|JY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/31974247/ Single-cell Transcriptional Diversity Is a Hallmark of Developmental Potential]<br />
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|style="padding:.4em;"|20-11<br />
|style="padding:.4em;"|JH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/31675496/ Landscape and Dynamics of Single Immune Cells in Hepatocellular Carcinoma]<br />
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|style="padding:.4em;" rowspan=2|2020/06/02<br />
|style="padding:.4em;" rowspan=2|-<br />
|style="padding:.4em;"|20-10<br />
|style="padding:.4em;"|HY Seo<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/32103181/ Peripheral T Cell Expansion Predicts Tumour Infiltration and Clinical Response]<br />
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|style="padding:.4em;"|20-9<br />
|style="padding:.4em;"|KH Hong<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/30388456/ Defining T Cell States Associated With Response to Checkpoint Immunotherapy in Melanoma]<br />
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|style="padding:.4em;" rowspan=2|2020/05/26<br />
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|style="padding:.4em;"|20-8<br />
|style="padding:.4em;"|JY Seong<br />
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[https://pubmed.ncbi.nlm.nih.gov/31915379/ Rapid Non-Uniform Adaptation to Conformation-Specific KRAS(G12C) Inhibition]<br />
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|style="padding:.4em;"|20-7<br />
|style="padding:.4em;"|OY Min<br />
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[https://pubmed.ncbi.nlm.nih.gov/31959990/ Targeted Therapy Guided by Single-Cell Transcriptomic Analysis in Drug-Induced Hypersensitivity Syndrome: A Case Report]<br />
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|style="padding:.4em;" rowspan=2|2020/05/19<br />
|style="padding:.4em;" rowspan=2|-<br />
|style="padding:.4em;"|20-6<br />
|style="padding:.4em;"|SN Lee<br />
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[https://pubmed.ncbi.nlm.nih.gov/32066951/ Distinct Microbial and Immune Niches of the Human Colon]<br />
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|style="padding:.4em;"|20-5<br />
|style="padding:.4em;"|DJ Park<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/31375813/ Massively Parallel Single-Cell Chromatin Landscapes of Human Immune Cell Development and Intratumoral T Cell Exhaustion]<br />
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|style="padding:.4em;" rowspan=2|2020/05/12<br />
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|style="padding:.4em;"|20-4<br />
|style="padding:.4em;"|SY Park<br />
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[https://pubmed.ncbi.nlm.nih.gov/29434354/ Single-cell Gene Expression Reveals a Landscape of Regulatory T Cell Phenotypes Shaped by the TCR]<br />
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|style="padding:.4em;"|20-3<br />
|style="padding:.4em;"|NY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://pubmed.ncbi.nlm.nih.gov/30078704/ A Single-Cell Atlas of In Vivo Mammalian Chromatin Accessibility]<br />
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|style="padding:.4em;" rowspan=2|2020/04/28<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|20-2<br />
|style="padding:.4em;"|SB Baek<br />
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[https://pubmed.ncbi.nlm.nih.gov/32014031/ scAI: An Unsupervised Approach for the Integrative Analysis of Parallel Single-Cell Transcriptomic and Epigenomic Profiles]<br />
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|style="padding:.4em;"|20-1<br />
|style="padding:.4em;"|JH Cha<br />
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[https://pubmed.ncbi.nlm.nih.gov/31792411/ Single-cell Multiomic Analysis Identifies Regulatory Programs in Mixed-Phenotype Acute Leukemia]<br />
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{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2019-2nd semester<br />
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|style="padding:.4em;" rowspan=2|2019/10/15<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-51<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S1931312819303488 Obese Individuals with and without Type 2 Diabetes Show Different Gut Microbial Functional Capacity and Composition]<br />
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|style="padding:.4em;"|19-50<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://microbiomejournal.biomedcentral.com/articles/10.1186/s40168-019-0722-6 Clustering co-abundant genes identifies components of the gut microbiome that are reproducibly associated with colorectal cancer and inflammatory bowel disease]<br />
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|style="padding:.4em;" rowspan=2|2019/10/08<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-49<br />
|style="padding:.4em;"|SB Baek<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41587-019-0206-z Massively parallel single-cell chromatin landscapes of human immune cell development and intratumoral T cell exhaustion]<br />
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|style="padding:.4em;"|19-48<br />
|style="padding:.4em;"|SB Baek<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/739011v1 Assessment of computational methods for the analysis of single-cell ATAC-seq data]<br />
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|style="padding:.4em;" rowspan=2|2019/10/01<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-47<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S1931312819303026 Meta-Analysis Reveals Reproducible Gut Microbiome Alterations in Response to a High-Fat Diet]<br />
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|style="padding:.4em;"|19-46<br />
|style="padding:.4em;"|NY Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419307731 Tumor Microbiome Diversity and Composition Influence Pancreatic Cancer Outcomes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/24<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-45<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://genome.cshlp.org/content/early/2019/04/01/gr.243725.118 The accessible chromatin landscape of the murine hippocampus at single-cell resolution]<br />
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|style="padding:.4em;"|19-44<br />
|style="padding:.4em;"|SB Baek<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741830446X Integrated Single-Cell Analysis Maps the Continuous Regulatory Landscape of Human Hematopoietic Differentiation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/17<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-43<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://science.sciencemag.org/content/365/6449/eaau4735 A sparse covarying unit that describes healthy and impaired human gut microbiota development]<br />
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|style="padding:.4em;"|19-42<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419307810 Large-Scale Analyses of Human Microbiomes Reveal Thousands of Small, Novel Genes]<br />
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|style="padding:.4em;" rowspan=2|2019/09/10<br />
|style="padding:.4em;" rowspan=2|Single-cell<br />
|style="padding:.4em;"|19-41<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419307329?via%3Dihub Intra- and Inter-cellular Rewiring of the Human Colon during Ulcerative Colitis]<br />
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|style="padding:.4em;"|19-40<br />
|style="padding:.4em;"|IS Choi<br />
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[https://www.nature.com/articles/nbt.4042 Multiplexed droplet single-cell RNA-sequencing using natural genetic variation]<br />
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|style="padding:.4em;" rowspan=2|2019/09/03<br />
|style="padding:.4em;" rowspan=2|Microbiome<br />
|style="padding:.4em;"|19-39<br />
|style="padding:.4em;"|NY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S193131281930352X?via%3Dihub The Landscape of Genetic Content in the Gut and Oral Human Microbiome]<br />
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|style="padding:.4em;"|19-38<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867419307755?via%3Dihub Benchmarking Metagenomics Tools for Taxonomic Classification]<br />
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{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2019<br />
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|style="padding:.4em;" rowspan=2|2019/08/20<br />
|style="padding:.4em;"|19-37<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/719088v1 Coexpression uncovers a unified single-cell transcriptomic landscape]<br />
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|style="padding:.4em;"|19-36<br />
|style="padding:.4em;"|MY Lee<br />
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[https://www.biorxiv.org/content/10.1101/586859v1 Single-cell interactomes of the human brain reveal cell-type specific convergence of brain disorders]<br />
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|style="padding:.4em;" rowspan=3|2019/08/14<br />
|style="padding:.4em;"|19-35<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1004075 Proportionality: a valid alternative to correlation for relative data]<br />
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|style="padding:.4em;"|19-34<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41598-017-16520-0 propr: An R-package for Identifying Proportionally Abundant Features Using Compositional Data Analysis]<br />
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|style="padding:.4em;"|19-33<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/s41591-018-0157-9 Robust prediction of response to immune checkpoint blockade therapy in metastatic melanoma]<br />
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|style="padding:.4em;" rowspan=2|2019/08/13<br />
|style="padding:.4em;"|19-32<br />
|style="padding:.4em;"|KS Kim<br />
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[https://www.nature.com/articles/s41592-018-0254-1 A test metric for assessing single-cell RNA-seq batch correction]<br />
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|style="padding:.4em;"|19-31<br />
|style="padding:.4em;"|KS Kim<br />
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[https://www.sciencedirect.com/science/article/pii/S0092867419305598 Comprehensive Integration of Single-Cell Data]<br />
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|style="padding:.4em;" rowspan=2|2019/08/08<br />
|style="padding:.4em;"|19-30<br />
|style="padding:.4em;"|JH Cha<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418313941 Defining T Cell States Associated with Response to Checkpoint Immunotherapy in Melanoma]<br />
|-<br />
|style="padding:.4em;"|19-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831242X High-Dimensional Analysis Delineates Myeloid and Lymphoid Compartment Remodeling during Successful Immune-Checkpoint Cancer Therapy]<br />
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|style="padding:.4em;" rowspan=2|2019/08/07<br />
|style="padding:.4em;"|19-28<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.biorxiv.org/content/10.1101/555557v1 A single-cell reference map for human blood and tissue T cell activation reveals functional states in health and disease]<br />
|-<br />
|style="padding:.4em;"|19-27<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S009286741831568X Dysfunctional CD8 T Cells Form a Proliferative, Dynamically Regulated Compartment within Human Melanoma]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/30<br />
|style="padding:.4em;"|19-26<br />
|style="padding:.4em;"|IS Choi<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/nm.4466 High-dimensional single-cell analysis predicts response to anti-PD-1 immunotherapy]<br />
|-<br />
|style="padding:.4em;"|19-25<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.sciencedirect.com/science/article/pii/S0092867418311784 A Cancer Cell Program Promotes T Cell Exclusion and Resistance to Checkpoint Blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/07/23<br />
|style="padding:.4em;"|19-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26006008 COMPASS identifies T-cell subsets correlated with clinical outcomes.]<br />
|-<br />
|style="padding:.4em;"|19-23<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.nature.com/articles/ncomms14825 Sensitive detection of rare disease-associated cell subsets via representation learning]<br />
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|style="padding:.4em;" rowspan=3|2019/05/30<br />
|style="padding:.4em;"|19-22<br />
|style="padding:.4em;"|<br />
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[https://www.ncbi.nlm.nih.gov/pubmed/30936547 Meta-analysis of fecal metagenomes reveals global microbial signatures that are specific for colorectal cancer]<br />
|-<br />
|style="padding:.4em;"|19-21<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30936548 Metagenomic analysis of colorectal cancer datasets identifies cross-cohort microbial diagnostic signatures and a link with choline degradation]<br />
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|style="padding:.4em;"|19-20<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30664783 Microbial network disturbances in relapsing refractory Crohn's disease.]<br />
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|style="padding:.4em;" rowspan=3|2019/05/23<br />
|style="padding:.4em;"|19-19<br />
|style="padding:.4em;"|<br />
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[https://www.ncbi.nlm.nih.gov/pubmed/30867587 New insights from uncultivated genomes of the global human gut microbiome]<br />
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|style="padding:.4em;"|19-18<br />
|style="padding:.4em;"|<br />
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[https://www.ncbi.nlm.nih.gov/pubmed/30745586 A new genomic blueprint of the human gut microbiota]<br />
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|style="padding:.4em;"|19-17<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30661755 Extensive Unexplored Human Microbiome Diversity Revealed by Over 150,000 Genomes from Metagenomes Spanning Age, Geography, and Lifestyle.]<br />
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|style="padding:.4em;" rowspan=2|2019/05/16<br />
|style="padding:.4em;"|19-16<br />
|style="padding:.4em;"|<br />
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[https://www.ncbi.nlm.nih.gov/pubmed/29311644 Dynamics of metatranscription in the inflammatory bowel disease gut microbiome.]<br />
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|style="padding:.4em;"|19-15<br />
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|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29335555 Metatranscriptome of human faecal microbial communities in a cohort of adult men.]<br />
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|style="padding:.4em;" rowspan=2|2019/05/09<br />
|style="padding:.4em;"|19-14<br />
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[https://www.ncbi.nlm.nih.gov/pubmed/30193113 Post-Antibiotic Gut Mucosal Microbiome Reconstitution Is Impaired by Probiotics and Improved by Autologous FMT.]<br />
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|style="padding:.4em;"|19-13<br />
|style="padding:.4em;"|<br />
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[https://www.ncbi.nlm.nih.gov/pubmed/30193112 Personalized Gut Mucosal Colonization Resistance to Empiric Probiotics Is Associated with Unique Host and Microbiome Features.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/05/02<br />
|style="padding:.4em;"|19-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30753825 Distinct Immune Cell Populations Define Response to Anti-PD-1 Monotherapy and Anti-PD-1/Anti-CTLA-4 Combined Therapy.]<br />
|-<br />
|style="padding:.4em;"|19-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30778252 Subsets of exhausted CD8+ T cells differentially mediate tumor control and respond to checkpoint blockade.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/4/11<br />
|style="padding:.4em;"|19-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30479382 Lineage tracking reveals dynamic relationships of T cells in colorectal cancer.]<br />
|-<br />
|style="padding:.4em;"|19-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30523328 Single cell dissection of plasma cell heterogeneity in symptomatic and asymptomatic myeloma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/4/4<br />
|style="padding:.4em;"|19-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942092 Single-cell profiling of breast cancer T cells reveals a tissue-resident memory subset associated with improved prognosis.]<br />
|-<br />
|style="padding:.4em;"|19-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29942094 Global characterization of T cells in non-small-cell lung cancer by single-cell sequencing]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/28<br />
|style="padding:.4em;"|19-6<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28319088 Reference component analysis of single-cell transcriptomes elucidates cellular heterogeneity in human colorectal tumors.]<br />
|-<br />
|style="padding:.4em;"|19-5<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28622514 Landscape of Infiltrating T Cells in Liver Cancer Revealed by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2019/3/21<br />
|style="padding:.4em;"|19-4<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29988129 Phenotype molding of stromal cells in the lung tumor microenvironment.]<br />
|-<br />
|style="padding:.4em;"|19-3-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787436 A single-cell molecular map of mouse gastrulation and early organogenesis]<br />
|-<br />
|style="padding:.4em;"|19-3<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/30787437 The single-cell transcriptional landscape of mammalian organogenesis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2019/3/14<br />
|style="padding:.4em;"|19-2<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29961579 Single-Cell Map of Diverse Immune Phenotypes in the Breast Tumor Microenvironment]<br />
|-<br />
|style="padding:.4em;"|19-1<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29198524 Single-Cell Transcriptomic Analysis of Primary and Metastatic Tumor Ecosystems in Head and Neck Cancer]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2018<br />
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!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
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|style="padding:.4em;" rowspan=2|2018/06/14<br />
|style="padding:.4em;"|18-12<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+pan-cancer+analysis+of+enhancer+expression+in+nearly+9000+patient+samples A Pan-Cancer Analysis of Enhancer Expression in Nearly 9000 Patient Samples.]<br />
|-<br />
|style="padding:.4em;"|18-11<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Machine+learning+identifies+stemness+features+associated+with+oncogenic+dedifferentiation Machine Learning Identifies Stemness Features Associated with Oncogenic Dedifferentiation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/06/07<br />
|style="padding:.4em;"|18-10<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Developmental+and+oncogenic+programs+in+H3K27M+gliomas+dissected+by+single-cell+RNA-seq Developmental and oncogenic programs in H3K27M gliomas dissected by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|18-9<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Chemoresistance+evolution+in+triple-negative+breast+cancer+delineated+by+single-cell+sequencing Chemoresistance Evolution in Triple-Negative Breast Cancer Delineated by Single-Cell Sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/31<br />
|style="padding:.4em;"|18-8<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Mapping+human+pluripotent+stem+cell+differentiation+pathways+using+high+throughput+single-cell+RNA-sequencing Mapping human pluripotent stem cell differentiation pathways using high throughput single-cell RNA-sequencing.]<br />
|-<br />
|style="padding:.4em;"|18-7<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=A+single-cell+RNA-seq+survey+of+the+developmental+landscape+of+the+human+prefrontal+cortex A single-cell RNA-seq survey of the developmental landscape of the human prefrontal cortex.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/24<br />
|style="padding:.4em;"|18-6<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Single-cell+RNA+sequencing+identifies+celltype-specific+cis-eQTLs+and+co-expression+QTLs Single-cell RNA sequencing identifies celltype-specific cis-eQTLs and co-expression QTLs.]<br />
|-<br />
|style="padding:.4em;"|18-5<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=FOCS%3A+a+novel+method+for+analyzing+enhancer+and+gene+activity+patterns+infers+an+extensive+enhancer-promoter+map FOCS: a novel method for analyzing enhancer and gene activity patterns infers an extensive enhancer-promoter map.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/17<br />
|style="padding:.4em;"|18-4<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29149608 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;"|18-3<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/29610481 A global transcriptional network connecting noncoding mutations to changes in tumor gene expression.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2018/05/10<br />
|style="padding:.4em;"|18-2<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=Inferring+regulatory+element+landscapes+and+transcription+factor+networks+from+cancer+methylomes Inferring regulatory element landscapes and transcription factor networks from cancer methylomes.]<br />
|-<br />
|style="padding:.4em;"|18-1<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28129544 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2017<br />
|-<br />
!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/28<br />
|style="padding:.4em;"|17-36<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/28104840 Tumor aneuploidy correlates with markers of immune evasion and with reduced response to immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-35<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27240091 Landscape of tumor-infiltrating T cell repertoire of human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/14<br />
|style="padding:.4em;"|17-34<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2015/09/01/025908 The landscape of T cell infiltration in human cancer and its association with antigen presenting gene expression.]<br />
|-<br />
|style="padding:.4em;"|17-33<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.08.052 A Distinct Gene Module for Dysfunction Uncoupled from Activation in Tumor-Infiltrating T Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/06/07<br />
|style="padding:.4em;"|17-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.tandfonline.com/doi/full/10.1080/2162402X.2016.1253654 Identification of genetic determinants of breast cancer immune phenotypes by integrative genome-scale analysis.]<br />
|-<br />
|style="padding:.4em;"|17-31<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.03.075 Genomic Correlates of Immune-Cell Infiltrates in Colorectal Carcinoma.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/31<br />
|style="padding:.4em;"|17-30<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.02.065 Genomic and Transcriptomic Features of Response to Anti-PD-1 Therapy in Metastatic Melanoma.]<br />
|-<br />
|style="padding:.4em;"|17-29<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.019 Pan-cancer Immunogenomic Analyses Reveal Genotype-Immunophenotype Relationships and Predictors of Response to Checkpoint Blockade.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/24<br />
|style="padding:.4em;"|17-28<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.12.022 Systemic Immunity Is Required for Effective Cencer Immunotherapy.]<br />
|-<br />
|style="padding:.4em;"|17-27<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.020 Linking the Human Gut Microbiome to Inflammatory Cytokine Production Capacity.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/05/17<br />
|style="padding:.4em;"|17-26<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.018 Host and Environmental Factors Influencing Individual Human Cytokine Responses.]<br />
|-<br />
|style="padding:.4em;"|17-25<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.10.017 A Functional Genomics Approach to Understand Variation in Cytokine Production in Humans.]<br />
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|style="padding:.4em;" rowspan=2|2017/04/26<br />
|style="padding:.4em;"|17-24<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2FNMETH.4177 Pooled CRISPR screening with single-cell transcriptome readout.]<br />
|-<br />
|style="padding:.4em;"|17-23<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.039 Dissecting Immune Circuits by Linking CRISPR-Pooled Screens with Single-Cell RNA-Seq.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/12<br />
|style="padding:.4em;"|17-22<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.cell.2016.11.038 Perturb-Seq: Dissecting Molecular Circuits with Scalable Single-Cell RNA Profiling of Pooled Genetic Screens.]<br />
|-<br />
|style="padding:.4em;"|17-21<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnbt.3569 Wishbone identifies bifurcating developmental trajectories from single-cell data.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/04/05<br />
|style="padding:.4em;"|17-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2017/02/21/110668 Reversed graph embedding resolves complex single-cell developmental trajectories.]<br />
|-<br />
|style="padding:.4em;"|17-19<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1038%2Fnmeth.4150 Single-cell mRNA quantification and differential analysis with Census.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/03/29<br />
|style="padding:.4em;"|17-18<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1016%2Fj.celrep.2016.12.060 Single-Cell Transcriptomic Analysis Defines Heterogeneity and Transcriptional Dynamics in the Adult Neural Stem Cell Lineage.]<br />
|-<br />
|style="padding:.4em;"|17-17<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26051941 Single-Cell Network Analysis Identifies DDIT3 as a Nodal Lineage Regulator in Hematopoiesis.]<br />
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|style="padding:.4em;" rowspan=2|2017/03/22<br />
|style="padding:.4em;"|17-16<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27580035 Single-cell analysis of mixed-lineage states leading to a binary cell fate choice.]<br />
|-<br />
|style="padding:.4em;"|17-15<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27281220 Dissecting direct reprogramming from fibroblast to neuron using single-cell RNA-seq.]<br />
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|style="padding:.4em;" rowspan=2|2017/03/15<br />
|style="padding:.4em;"|17-14<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/?term=10.1126%2Fscience.aad0501 Dissecting the multicellular ecosystem of metastatic melanoma by single-cell RNA-seq.]<br />
|-<br />
|style="padding:.4em;"|17-13<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/26084335 Single-cell mRNA sequencing identifies subclonal heterogeneity in anti-cancer drug responses of lung adenocarcinoma cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/28<br />
|style="padding:.4em;"|17-12<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[https://www.ncbi.nlm.nih.gov/pubmed/27824113 A Comprehensive Characterization of the Function of LincRNAs in Transcriptional Regulation Through Long-Range Chromatin Interactions.]<br />
|-<br />
|style="padding:.4em;"|17-11<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27851969 Epigenomic Deconvolution of Breast Tumors Reveals Metabolic Coupling between Constituent Cell Types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/21<br />
|style="padding:.4em;"|17-10<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/12/30/097451 Convergence of dispersed regulatory mutations predicts driver genes in prostate cancer.]<br />
|-<br />
|style="padding:.4em;"|17-09<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//pubmed.gov/27723759 Chromatin structure-based prediction of recurrent noncoding mutations in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/02/07<br />
|style="padding:.4em;"|17-08<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/17/088286 Somatic Mutations and Neoepitope Homology in Melanomas Treated with CTLA-4 Blockade.]<br />
|-<br />
|style="padding:.4em;"|17-07<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://biorxiv.org/content/early/2016/11/28/090134 Chemotherapy weakly contributes to predicted neoantigen expression in ovarian cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/31<br />
|style="padding:.4em;"|17-06<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27912059 Microbiota Diurnal Rhythmicity Programs Host Transcriptome Oscillations.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/24<br />
|style="padding:.4em;"|17-05<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27851914 Transcriptional Landscape of Human Tissue Lymphocytes Unveils Uniqueness of Tumor-Infiltrating T Regulatory Cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2017/01/17<br />
|style="padding:.4em;"|17-04<br />
|style="padding:.4em;"|HJ Han <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/25938943 Mapping long-range promoter contacts in human cells with high-resolution capture Hi-C]<br />
|-<br />
|style="padding:.4em;"|17-03<br />
|style="padding:.4em;"|EB Kim <br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/27306882 CHiCAGO: robust detection of DNA looping interactions in Capture Hi-C data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/10<br />
|style="padding:.4em;"|17-02<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26527291 ZIFA: Dimensionality reduction for zero-inflated single-cell gene expression analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2017/01/03<br />
|style="padding:.4em;"|17-01<br />
|style="padding:.4em;"|SH Lee<br />
|style="padding:.4em;text-align:left"|<br />
[//www.ncbi.nlm.nih.gov/pubmed/26287467 Single-cell messenger RNA sequencing reveals rare intestinal cell types]<br />
|-<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2016<br />
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!scope="col" style="padding:.4em" |Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/27<br />
|style="padding:.4em;"|2016-31<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25664528 Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/12/6<br />
|style="padding:.4em;"|2016-30<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26299571 Single-Cell RNA-Seq with Waterfall Reveals Molecular Cascades underlying Adult Neurogenesis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/29<br />
|style="padding:.4em;"|2016-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24658644 The dynamics and regulators of cell fate decisions are revealed by pseudotemporal ordering of single cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/22<br />
|style="padding:.4em;"|2016-28<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26887813 Classification of low quality cells from single-cell RNA-seq data.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/15<br />
|style="padding:.4em;"|2016-27<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000487 Droplet barcoding for single-cell transcriptomics applied to embryonic stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/8<br />
|style="padding:.4em;"|2016-26<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26000488 Highly Parallel Genome-wide Expression Profiling of Individual Cells Using Nanoliter Droplets.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/11/1<br />
|style="padding:.4em;"|2016-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27426982 Causal Mechanistic Regulatory Network for Glioblastoma Deciphered Using Systems Genetics Network Analysis.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/25<br />
|style="padding:.4em;"|2016-24<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27549193 Comprehensive analyses of tumor immunity: implications for cancer immunotherapy.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/10/11<br />
|style="padding:.4em;"|2016-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=sidespread+parainflammation Widespread parainflammation in human cancer]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/27<br />
|style="padding:.4em;"|2016-22<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27535533 Analysis of protein-coding genetic variation in 60,706 humans]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/20<br />
|style="padding:.4em;"|2016-21<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
Functional characterization of somatic mutations in cancer using network-based inference of protein activity<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27322546 pubmed]<br />
[http://www.nature.com/ng/journal/v48/n8/full/ng.3593.html fulltext]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/13<br />
|style="padding:.4em;"|2016-20<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=exploiting+single-cell+expression+to+characterize Exploiting single-cell expression to characterize co-expression replicability.]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/9/6<br />
|style="padding:.4em;"|2016-19<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26940869 Clonal neoantigens elicit T cell immunoreactivity and sensitivity to immune checkpoint blockade]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/31<br />
|style="padding:.4em;"|2016-18<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27264179 A Computational Drug Repositioning Approach for Targeting Oncogenic Transcription Factors]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/16<br />
|style="padding:.4em;"|2016-17<br />
|style="padding:.4em;"|JW Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27309802 The landscape of accessible chromatin in mammalian preimplantation embryos]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/8<br />
|style="padding:.4em;"|2016-16<br />
|style="padding:.4em;"|EB Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27064255 Enhancer-promoter interactions are encoded by complex genomic signatures on looping chromatin]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/8/1<br />
|style="padding:.4em;"|2016-15<br />
|style="padding:.4em;"|MY Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27040498 Personalized Immunomonitoring Uncovers Molecular Networks that Stratify Lupus Patients]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/25<br />
|style="padding:.4em;"|2016-14<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=integration+of+summary+data+from+gwas+and+eqtl+studies Integration of summary data from GWAS and eQTL studies predicts complex trait gene targets]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2016/7/18<br />
|style="padding:.4em;"|2016-13<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23624555 Identification of transcriptional regulators in the mouse immune system]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/6/8<br />
|style="padding:.4em;"|2016-12<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26619012 Mapping the effects of drugs on the immune system]<br />
|-<br />
|style="padding:.4em;"| 2016-11<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26186195 Elucidating compound mechanism of action by network perturbation analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/6/1<br />
|style="padding:.4em;"|2016-10<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26854917 Integrative approaches for large-scale transcriptome-wide association studies]<br />
|-<br />
|style="padding:.4em;"| 2016-9<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26950747 Tissue-specific regulatory circuits reveal variable modular perturbations across complex diseases]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/18<br />
|style="padding:.4em;"|2016-8<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/27013732 Survey of variation in human transcription factors reveals prevalent DNA binding changes]<br />
|-<br />
|style="padding:.4em;"| 2016-7<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26502339 Large-scale identification of sequence variants influencing human transcription factor occupancy in vivo]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/11<br />
|style="padding:.4em;"|2016-6<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25171417 Predicting Cancer-specific vulnerability via data-driven detection of synthetic lethality]<br />
|-<br />
|style="padding:.4em;"| 2016-5<br />
|style="padding:.4em;"|DS Bae, CY Kim <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23467089 Dynamic regulatory network controlling Th17 cell differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/5/4<br />
|style="padding:.4em;"|2016-4<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25853550 Characterization of the immunophenotypes and antigenomes of colorectal cancers reveals distinct tumor escape mechanisms and novel targets for immunotherapy]<br />
|-<br />
|style="padding:.4em;"| 2016-3<br />
|style="padding:.4em;"|MY Lee,SM Cho <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26618344 Regulators of genetic risk of breast cancer identified by integrative network analysis]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2016/4/27<br />
|style="padding:.4em;"|2016-2<br />
|style="padding:.4em;"|CY Kim,SJ Kwon<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/26780608 A predictive computational framework for direct reprogramming between human cell types]<br />
|-<br />
|style="padding:.4em;"| 2016-1<br />
|style="padding:.4em;"| CY Kim,SJ Kwon <br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/25126793 CellNet: Network biology applied to stem cell engineering]<br />
|}<br />
<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2015<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
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|style="padding:.4em;" rowspan=2|2015/06/11<br />
|style="padding:.4em;"|2015-55<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/24/2/340.long Improved exome prioritization of disease genes through cross-species phenotype comparison.]<br />
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|style="padding:.4em;"|2015-54<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0002929714001128 Phevor combines multiple biomedical ontologies for accurate identification of disease-causing alleles in single individuals and small nuclear families.]<br />
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|style="padding:.4em;" rowspan=2|2015/06/04<br />
|style="padding:.4em;"|2015-53<br />
|style="padding:.4em;"|<br />
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[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2656.html eXtasy: variant prioritization by genomic data fusion.]<br />
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|style="padding:.4em;"|2015-52<br />
|style="padding:.4em;"|<br />
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[http://genome.cshlp.org/content/21/9/1529.long A probabilistic disease-gene finder for personal genomes.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/28<br />
|style="padding:.4em;"|2015-51<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n12/full/ng.3141.html Systematic analysis of noncoding somatic mutations and gene expression alterations across 14 tumor types.]<br />
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|style="padding:.4em;"|2015-50<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v28/n5/full/nbt.1630.html GREAT improves functional interpretation of cis-regulatory regions.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/21<br />
|style="padding:.4em;"|2015-49<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n3/full/nmeth.2832.html Functional annotation of noncoding sequence variants.]<br />
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|style="padding:.4em;"|2015-48<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/15/10/480 FunSeq2: A framework for prioritizing noncoding regulatory variants in cancer.]<br />
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|style="padding:.4em;" rowspan=2|2015/05/14<br />
|style="padding:.4em;"|2015-47<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v12/n2/full/nmeth.3215.html Selecting causal genes from genome-wide association studies via functionally coherent subnetworks.]<br />
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|style="padding:.4em;"|2015-46<br />
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|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2015/150119/ncomms6890/full/ncomms6890.html Biological interpretation of genome-wide association studies using predicted gene functions.]<br />
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|style="padding:.4em;" rowspan=3|2015/05/07<br />
|style="padding:.4em;"|2015-45<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/140626/ncomms5212/full/ncomms5212.html Human symptoms-disease network.]<br />
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|style="padding:.4em;"|2015-44<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413010246 A nondegenerate code of deleterious variants in Mendelian loci contributes to complex disease risk.]<br />
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|style="padding:.4em;"|2015-43<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/347/6224/1257601.long Uncovering disease-disease relationships through the incomplete interactome.]<br />
<br />
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|style="padding:.4em;" rowspan=2|2015/04/30<br />
|style="padding:.4em;"|2015-42<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/142.long The discovery of integrated gene networks for autism and related disorders.]<br />
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|style="padding:.4em;"|2015-41<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/12/774.long Integrated systems analysis reveals a molecular network underlying autism spectrum disorders.]<br />
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|style="padding:.4em;" rowspan=3|2015/04/23<br />
|style="padding:.4em;"|2015-40<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature13990.html Dissecting neural differentiation regulatory networks through epigenetic footprinting.]<br />
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|style="padding:.4em;"|2015-39<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14221.html Cell-of-origin chromatin organization shapes the mutational landscape of cancer.]<br />
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|style="padding:.4em;"|2015-38<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v518/n7539/full/nature14248.html Integrative analysis of 111 reference human epigenomes.]<br />
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|style="padding:.4em;" rowspan=2|2015/04/09<br />
|style="padding:.4em;"|2015-37<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/246.long Genome-wide analysis of local chromatin packing in Arabidopsis thaliana.]<br />
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|style="padding:.4em;"|2015-36<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014974 A 3D map of the human genome at kilobase resolution reveals principles of chromatin looping.]<br />
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|style="padding:.4em;" rowspan=2|2015/04/02<br />
|style="padding:.4em;"|2015-35<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v14/n6/full/nrg3454.html Exploring the three-dimensional organization of genomes: interpreting chromatin interaction data.]<br />
|-<br />
|style="padding:.4em;"|2015-34<br />
|style="padding:.4em;"|<br />
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[http://www.sciencemag.org/content/347/6225/1010.long Transcribed enhancers lead waves of coordinated transcription in transitioning mammalian cells.]<br />
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|style="padding:.4em;" rowspan=2|2015/03/26<br />
|style="padding:.4em;"|2015-33<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/2/257.long Cupid: simultaneous reconstruction of microRNA-target and ceRNA networks.]<br />
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|style="padding:.4em;"|2015-32<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/25/1/41.long Characterization of the neural stem cell gene regulatory network identifies OLIG2 as a multifunctional regulator of self-renewal.]<br />
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|style="padding:.4em;" rowspan=2|2015/03/19<br />
|style="padding:.4em;"|2015-31<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.3154.html Decoding the regulatory network of early blood development from single-cell gene expression measurements.]<br />
|-<br />
|style="padding:.4em;"|2015-30<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v16/n3/full/nrg3833.html Computational and analytical challenges in single-cell transcriptomics.]<br />
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|style="padding:.4em;" rowspan=3|2015/03/12<br />
|style="padding:.4em;"|2015-29<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867415000136 Extensive Strain-Level Copy-Number Variation across Human Gut Microbiome Species.]<br />
|-<br />
|style="padding:.4em;"|2015-28<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v500/n7464/full/nature12506.html Richness of human gut microbiome correlates with metabolic markers.]<br />
|-<br />
|style="padding:.4em;"|2015-27<br />
|style="padding:.4em;"|<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v490/n7418/full/nature11450.html A metagenome-wide association study of gut microbiota in type 2 diabetes.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/09<br />
|style="padding:.4em;"|2015-26<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003326 Practical guidelines for the comprehensive analysis of ChIP-seq data.]<br />
|-<br />
|style="padding:.4em;"|2015-25<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/5/777.long Patterns of regulatory activity across diverse human cell types predict tissue identity, transcription factor binding, and long-range interactions.]<br />
|-<br />
|style="padding:.4em;"|2015-24<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/11/760.long Rapid neurogenesis through transcriptional activation in human stem cells.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/03/02<br />
|style="padding:.4em;"|2015-23<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414011787 Genome-Scale CRISPR-Mediated Control of Gene Repression and Activation.]<br />
|-<br />
|style="padding:.4em;"|2015-22<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1004237 Integrating multiple genomic data to predict disease-causing nonsynonymous single nucleotide variants in exome sequencing studies.]<br />
|-<br />
|style="padding:.4em;"|2015-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v45/n6/full/ng.2653.html The Genotype-Tissue Expression (GTEx) project.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/24<br />
|style="padding:.4em;"|2015-20<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/346/6212/1007.long Mouse regulatory DNA landscapes reveal global principles of cis-regulatory evolution.]<br />
|-<br />
|style="padding:.4em;"|2015-19<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13985.html Principles of regulatory information conservation between mouse and human.]<br />
|-<br />
|style="padding:.4em;"|2015-18<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v515/n7527/full/nature13972.html Conservation of trans-acting circuitry during mammalian regulatory evolution.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/02/16<br />
|style="padding:.4em;"|2015-17<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature13835.html Genetic and epigenetic fine mapping of causal autoimmune disease variants.]<br />
|-<br />
|style="padding:.4em;"|2015-16<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n3/full/ng.2892.html A general framework for estimating the relative pathogenicity of human genetic variants.]<br />
|-<br />
|style="padding:.4em;"|2015-15<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003825 A probabilistic model to predict clinical phenotypic traits from genome sequencing.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2015/02/02<br />
|style="padding:.4em;"|2015-14<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/22/E2329.long Relating the metatranscriptome and metagenome of the human gut.]<br />
|-<br />
|style="padding:.4em;"|2015-13<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v513/n7516/full/nature13568.html Alterations of the human gut microbiome in liver cirrhosis.]<br />
|-<br />
|style="padding:.4em;"|2015-12<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2942.html An integrated catalog of reference genes in the human gut microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-11<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/v32/n8/full/nbt.2939.html Identification and assembly of genomes and genetic elements in complex metagenomic samples without using reference genomes.]<br />
|-<br />
|style="padding:.4em;" rowspan=5|2015/01/26<br />
|style="padding:.4em;"|2015-10<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/9/1/666.long Computational meta'omics for microbial community studies.]<br />
|-<br />
|style="padding:.4em;"|2015-09<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/5/7/65 Functional profiling of the gut microbiome in disease-associated inflammation.]<br />
|-<br />
|style="padding:.4em;"|2015-08<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S016895251200145X Biodiversity and functional genomics in the human microbiome.]<br />
|-<br />
|style="padding:.4em;"|2015-07<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002808 Chapter 12: Human Microbiome Analysis.]<br />
|-<br />
|style="padding:.4em;"|2015-06<br />
|style="padding:.4em;"|BH Kang<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.cell.com/cell/abstract/S0092-8674%2814%2900864-2 Conducting a Microbiome Study.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2015/01/12<br />
|style="padding:.4em;"|2015-05<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ncomms/2014/141210/ncomms6522/full/ncomms6522.html Small RNA changes en route to distinct cellular states of induced pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-04<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14046.html Genome-wide characterization of the routes to pluripotency.]<br />
|-<br />
|style="padding:.4em;"|2015-03<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nature/journal/v516/n7530/full/nature14047.html Divergent reprogramming routes lead to alternative stem-cell states.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2015/01/05<br />
|style="padding:.4em;"|2015-02<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/111/21/E2191.long Global view of enhancer-promoter interactome in human cells.]<br />
|-<br />
|style="padding:.4em;"|2015-01<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://nar.oxfordjournals.org/content/41/22/10391.long Combining Hi-C data with phylogenetic correlation to predict the target genes of distal regulatory elements in human genome.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2014<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/23<br />
|style="padding:.4em;"|2014-41<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413012270 Super-enhancers in the control of cell identity and disease.]<br />
|-<br />
|style="padding:.4em;"|2014-40<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867413003929 Master transcription factors and mediator establish super-enhancers at key cell identity genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=4|2014/12/09<br />
|style="padding:.4em;"|2014-39<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414013713 Unraveling the biology of a fungal meningitis pathogen using chemical genetics.]<br />
|-<br />
|style="padding:.4em;"|2014-38<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414014226 A proteome-scale map of the human interactome network.]<br />
|-<br />
|style="padding:.4em;"|2014-37<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://msb.embopress.org/content/10/9/752.long The role of the interactome in the maintenance of deleterious variability in human populations.]<br />
|-<br />
|style="padding:.4em;"|2014-36<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencemag.org/content/342/6154/1235587.long Integrative annotation of variants from 1092 humans: application to cancer genomics.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/12/02<br />
|style="padding:.4em;"|2014-35<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genome.cshlp.org/content/23/8/1319.long Mapping functional transcription factor networks from gene expression data.]<br />
|-<br />
|style="padding:.4em;"|2014-34<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nrg/journal/v15/n7/full/nrg3684.html In pursuit of design principles of regulatory sequences.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/25<br />
|style="padding:.4em;"|2014-33<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/3/6/36 Epigenomics of human embryonic stem cells and induced pluripotent stem cells: insights into pluripotency and implications for disease.]<br />
|-<br />
|style="padding:.4em;"|2014-32<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S009286741300891X Developmental fate and cellular maturity encoded in human regulatory DNA landscapes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/18<br />
|style="padding:.4em;"|2014-31<br />
|style="padding:.4em;"|SM Yang<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/6/8/64 The 'dnet' approach promotes emerging research on cancer patient survival.]<br />
|-<br />
|style="padding:.4em;"|2014-30<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414010368 Determination and inference of eukaryotic transcription factor sequence specificity.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/11/11<br />
|style="padding:.4em;"|2014-29<br />
|style="padding:.4em;"|DS Bae<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.pnas.org/content/110/16/6412.long Transcription factors interfering with dedifferentiation induce cell type-specific transcriptional profiles.]<br />
|-<br />
|style="padding:.4em;"|2014-28<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009350 Dissecting engineered cell types and enhancing cell fate conversion via CellNet.]<br />
|-<br />
|style="padding:.4em;"|2014-27<br />
|style="padding:.4em;"|HH Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009349 CellNet: network biology applied to stem cell engineering.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/11/04<br />
|style="padding:.4em;"|2014-26<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414009775 Predicting Cancer-Specific Vulnerability via Data-Driven Detection of Synthetic Lethality.]<br />
|-<br />
|style="padding:.4em;"|2014-25<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n9/full/nmeth.3046.html Phen-Gen: combining phenotype and genotype to analyze rare disorders.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/10/28<br />
|style="padding:.4em;"|2014-24<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nbt/journal/vaop/ncurrent/full/nbt.2877.html A community effort to assess and improve drug sensitivity prediction algorithms.]<br />
|-<br />
|style="padding:.4em;"|2014-23<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/ng/journal/v46/n9/full/ng.3051.html Multi-tiered genomic analysis of head and neck cancer ties TP53 mutation to 3p loss.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/30<br />
|style="padding:.4em;"|2014-22<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v10/n11/full/nmeth.2651.html Network-based stratification of tumor mutations.]<br />
|-<br />
|style="padding:.4em;"|2014-21<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.sciencedirect.com/science/article/pii/S0092867414001457 Synonymous mutations frequently act as driver mutations in human cancers.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/23<br />
|style="padding:.4em;"|2014-20<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003460 VarWalker: Personalized Mutation Network Analysis of Putative Cancer Genes from Next-Generation Sequencing Data.]<br />
|-<br />
|style="padding:.4em;"|2014-19<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/13/12/R124 DriverNet: uncovering the impact of somatic driver mutations on transcriptional networks in cancer.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/16<br />
|style="padding:.4em;"|2014-18<br />
|style="padding:.4em;"|JH Shin<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomebiology.com/content/14/5/R52 Integrated analysis of recurrent properties of cancer genes to identify novel drivers.]<br />
|-<br />
|style="padding:.4em;"|2014-17<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://genomemedicine.com/content/4/11/89 Improving the prediction of the functional impact of cancer mutations by baseline tolerance transformation.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/09/02<br />
|style="padding:.4em;"|2014-16<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23228031 A network module-based method for identifying cancer prognostic signatures.]<br />
|-<br />
|style="padding:.4em;"|2014-15<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24429628 Realizing the promise of cancer predisposition genes.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/19<br />
|style="padding:.4em;"|2014-14<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24952901 Assessing the clinical utility of cancer genomic and proteomic data across tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-13<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24132290 Mutational landscape and significance across 12 major cancer types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/12<br />
|style="padding:.4em;"|2014-12<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23945592 Signatures of mutational processes in human cancer.]<br />
|-<br />
|style="padding:.4em;"|2014-11<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24390350 Discovery and saturation analysis of cancer genes across 21 tumour types.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/08/05<br />
|style="padding:.4em;"|2014-10<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24084849 Comprehensive identification of mutational cancer driver genes across 12 tumor types.]<br />
|-<br />
|style="padding:.4em;"|2014-9<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24037244 IntOGen-mutations identifies cancer drivers across tumor types.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/29<br />
|style="padding:.4em;"|2014-8<br />
|style="padding:.4em;"|CY Kim<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23900255 Computational approaches to identify functional genetic variants in cancer genomes.]<br />
|-<br />
|style="padding:.4em;"|2014-7<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=23770567 Mutational heterogeneity in cancer and the search for new cancer-associated genes.]<br />
|-<br />
|style="padding:.4em;"|2014-6<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.nature.com/nmeth/journal/v11/n4/abs/nmeth.2891.html Cancer genomes: discerning drivers from passengers]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2014/07/22<br />
|style="padding:.4em;"|2014-5<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/24071849 The Cancer Genome Atlas Pan-Cancer analysis project.]<br />
|-<br />
|style="padding:.4em;"|2014-4<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/23539594 Cancer genome landscapes.]<br />
|-<br />
|style="padding:.4em;"|2014-3<br />
|style="padding:.4em;"|AR Cho<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=21900272 Distinguishing driver and passenger mutations in an evolutionary history categorized by interference.]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2014/07/15<br />
|style="padding:.4em;"|2014-2<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670764 A promoter-level mammalian expression atlas.]<br />
|-<br />
|style="padding:.4em;"|2014-1<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|<br />
[http://www.ncbi.nlm.nih.gov/pubmed/?term=24670763 An atlas of active enhancers across human cell types and tissues.]<br />
|}<br />
{|class=wikitable style="text-align:center;"<br />
|+style="text-align:left;font-size:12pt" | 2013<br />
|-<br />
!scope="col" style="padding:.4em" | Date<br />
!scope="col" style="padding:.4em" | Paper<br/>index<br />
!scope="col" style="padding:.4em" | Presenter<br />
!scope="col" style="padding:.4em" | Paper title<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/26<br />
|style="padding:.4em;"|2013-31<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://nar.oxfordjournals.org/content/40/16/7690.long Integration of Hi-C and ChIP-seq data reveals distinct types of chromatin linkages]<br />
|-<br />
|style="padding:.4em;"|2013-30<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n4/full/nbt.2519.html Deciphering molecular circuits from genetic variation underlying transcriptional responsiveness to stimuli]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/06/04<br />
|style="padding:.4em;"|2013-29<br />
|style="padding:.4em;"|KS Kim<br />
|style="padding:.4em;text-align:left"|[https://www.cell.com/abstract/S0092-8674(13)00439-X Mapping the Human miRNA Interactome by CLASH Reveals Frequent Noncanonical Binding]<br />
|-<br />
|style="padding:.4em;"|2013-28<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v31/n3/full/nbt.2514.html Sensitive detection of somatic point mutations in impure and heterogeneous cancer samples]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/28<br />
|style="padding:.4em;"|2013-27<br />
|style="padding:.4em;"|YH Ko<br />
|style="padding:.4em;text-align:left"|[http://www.pnas.org/content/102/38/13544.long Discovering statistically significant pathways in expression profiling studies]<br />
|-<br />
|style="padding:.4em;"|2013-26<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0058977 Prediction and Validation of Gene-Disease Associations Using Methods Inspired by Social Network Analyses]<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/21<br />
|style="padding:.4em;"|2013-25<br />
|style="padding:.4em;"|HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v496/n7446/full/nature11981.html Dynamic regulatory network controlling TH17 cell differentiation]<br />
|-<br />
|style="padding:.4em;"|2013-24<br />
|style="padding:.4em;"|T Lee<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412013529 Deciphering and Prediction of Transcriptome Dynamics under Fluctuating Field Conditions]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/05/14<br />
|style="padding:.4em;"|2013-23<br />
|style="padding:.4em;"|JE Shim<br />
|style="padding:.4em;text-align:left"|[http://www.sciencedirect.com/science/article/pii/S0092867412015565 Integrative eQTL-Based Analyses Reveal the Biology of Breast Cancer Risk Loci]<br />
<br />
|-<br />
|style="padding:.4em;"|2013-22<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v45/n2/full/ng.2504.html Chromatin marks identify critical cell types for fine mapping complex trait variants]<br />
|-<br />
|style="padding:.4em;" rowspan=2|'''2013/05/07'''<br />
|style="padding:.4em;"|2013-21<br />
|style="padding:.4em;"|ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01555-3 Genome-wide Chromatin State Transitions Associated with Developmental and Environmental Cues]<br />
|-<br />
|style="padding:.4em;"|2013-20<br />
|style="padding:.4em;"|HS Shim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1003201 Human Disease-Associated Genetic Variation Impacts Large Intergenic Non-Coding RNA Expression]<br />
|-<br />
|style="padding:.4em;"|2013/04/09<br />
|style="padding:.4em;"|2013-19<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1790.long Annotation of functional variation in personal genomes using RegulomeDB]<br />
|-<br />
|style="padding:.4em;"|2013/04/02<br />
|style="padding:.4em;"|2013-18<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1775.long The GENCODE v7 catalog of human long noncoding RNAs: Analysis of their gene structure, evolution, and expression]<br />
|-<br />
|style="padding:.4em;" |2013/03/12<br />
|style="padding:.4em;"|2013-17<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002311 Global Mapping of Cell Type–Specific Open Chromatin by FAIRE-seq Reveals the Regulatory Role of the NFI Family in Adipocyte Differentiation]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/03/05<br />
|style="padding:.4em;"|2013-16<br />
|style="padding:.4em;"| ER Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nrg/journal/v10/n10/full/nrg2641.html ChIP–seq: advantages and challenges of a maturing technology]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/21<br />
|style="padding:.4em;"|2013-15<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002830 Novel Modeling of Combinatorial miRNA Targeting Identifies SNP with Potential Role in Bone Density]<br />
|-<br />
|style="padding:.4em;"|2013-14<br />
|style="padding:.4em;"| KS Kim<br />
|style="padding:.4em;text-align:left"|[http://www.cell.com/abstract/S0092-8674(12)01424-9 A Molecular Roadmap of Reprogramming Somatic Cells into iPS Cells]<br />
|-<br />
|style="padding:.4em;"|2013-13<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/6/1015.long Differential DNase I hypersensitivity reveals factor-dependent chromatin dynamics.]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/15<br />
|style="padding:.4em;"|2013-12<br />
|style="padding:.4em;"| HJ Han<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/ng/journal/v43/n3/full/ng.759.html Chromatin accessibility pre-determines glucocorticoid receptor binding patterns]<br />
|-<br />
|style="padding:.4em;"|2013-11<br />
|style="padding:.4em;"| JE Shim, CY Kim <br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nbt/journal/v30/n11/full/nbt.2422.html Interpreting noncoding genetic variation in complex traits and human disease]<br />
|-<br />
|style="padding:.4em;"|2013-10<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/21/3/447.full.pdf+html Accurate inference of transcription factor binding from DNA sequence and chromatin accessibility data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/02/08<br />
|style="padding:.4em;"|2013-09<br />
|style="padding:.4em;"|HJ Kim<br />
|style="padding:.4em;text-align:left"|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002599 Widespread Site-Dependent Buffering of Human Regulatory Polymorphism]<br />
|-<br />
|style="padding:.4em;"|2013-08<br />
|style="padding:.4em;"|JE Shim, CY Kim<br />
|style="padding:.4em;text-align:left;"|[http://genome.cshlp.org/content/22/9/1748.long Linking disease associations with regulatory information in the human genome]<br />
|-<br />
|style="padding:.4em;"|2013-07<br />
|style="padding:.4em;"|HJ Han, JH Kim<br />
|style="padding:.4em;text-align:left"|[http://genome.cshlp.org/content/22/9/1658.long Understanding transcriptional regulation by integrative analysis of transcription factor binding data]<br />
|-<br />
|style="padding:.4em;" rowspan=3|2013/01/25<br />
|style="padding:.4em;"|2013-06<br />
|style="padding:.4em;"|HJ Han, '''JH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11279.html The long-range interaction landscape of gene promoters]<br />
|-<br />
|style="padding:.4em;"|2013-05<br />
|style="padding:.4em;"|'''ER Kim''', HS Shim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11233.html Landscape of transcription in human cells]<br />
|-<br />
|style="padding:.4em;"|2013-04<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11245.html Architecture of the human regulatory network derived from ENCODE data]<br />
<br />
|-<br />
|style="padding:.4em;" rowspan=2|2013/01/18<br />
|style="padding:.4em;"|2013-03<br />
|style="padding:.4em;"|KS Kim, '''TH Kim'''<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11212.html An expansive human regulatory lexicon encoded in transcription factor footprints]<br />
|-<br />
|style="padding:.4em;"|2013-02<br />
|style="padding:.4em;"|'''HJ Han''', JH Kim<br />
|style="padding:.4em;text-align:left;"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11232.html The accessible chromatin landscape of the human genome]<br />
|-<br />
|style="padding:.4em;" rowspan=1|2013/01/11<br />
|style="padding:.4em;"|2013-01<br />
|style="padding:.4em;"| '''JE Shim''', CY Kim<br />
|style="padding:.4em;text-align:left"|[http://www.nature.com/nature/journal/v489/n7414/full/nature11247.html An integrated encyclopedia of DNA elements in the human genome]<br />
|}<br />
<br />
2012<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc; padding:5px;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper title<br />
|-<br />
|rowspan = "1"|2013/01/11<br />
|align ="center"|2012-81<br />
|[http://genome.cshlp.org/content/22/8/1589.full (TH Kim) MuSiC: identifying mutational significance in cancer genomes.]<br />
|-<br />
|rowspan = "1"|2012/12/04<br />
|align ="center"|2012-80<br />
|[http://genome.cshlp.org/content/22/8/1383 (CY KIM) Human genomic disease variants: A neutral evolutionary explanation]<br />
|-<br />
|rowspan = "2"|2012/11/20<br />
| align="center"|2012-79<br />
|[http://www.cell.com/abstract/S0092-8674(12)00639-3 (HS Shim) Circuitry and Dynamics of Human Transcription Factor Regulatory Networks]<br />
|-<br />
| align="center"|2012-78<br />
|[http://www.nature.com/nature/journal/v487/n7408/full/nature11288.html (HJ Kim) Interpreting cancer genomes using systematic host network perturbations by tumour virus proteins]<br />
|-<br />
|rowspan = "2"|2012/11/06<br />
| align="center"|2012-77<br />
|[http://www.sciencemag.org/content/337/6099/1190.short (HJ Han) Systematic Localization of Common Disease-Associated Variation in Regulatory DNA]<br />
|-<br />
| align="center"|2012-76<br />
|[http://www.pnas.org/cgi/doi/10.1073/pnas.1201904109 (KS Kim) A public resource facilitating clinical use of genomes] <br />
|-<br />
|rowspan = "6" |2012/07/19<br />
| align="center"|2012-75<br />
|[http://genome.cshlp.org/content/22/7/1334 (HJ Han & YH Ko) Predictive regulatory models in Drosophila melanogaster by integrative inference of transcriptional networks]<br />
|-<br />
| align="center"|2012-74 <br />
|[http://www.sciencemag.org/content/337/6090/100.full (JE Shim) An Abundance of Rare Functional Variants in 202 Drug Target Genes Sequenced in 14,002 People] <br />
|-<br />
| align="center"|2012-73<br />
|[http://www.sciencemag.org/content/337/6090/64.abstract (JE Shim) Evolution and Functional Impact of Rare Coding Variation from Deep Sequencing of Human Exomes]<br />
|-<br />
| align="center"|2012-72<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2063581/ (SH Hwang) Network-based classification of breast cancer metastasis]<br />
|-<br />
| align="center"|2012-71<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002707 (T Lee&CY Kim)Brain Expression Genome-Wide Association Study (eGWAS) Identifies Human Disease-Associated Variants]<br />
|-<br />
| align="center"|2012-70<br />
|[http://genome.cshlp.org/content/20/9/1297 (ER Kim&TH Kim)The Genome Analysis Toolkit: A MapReduce framework for analyzing next-generation DNA sequencing data]<br />
|-<br />
|rowspan = "8" |2012/07/16<br />
| align="center"|2012-69<br />
|[http://www.nature.com/ng/journal/v43/n5/full/ng.806.html (ER Kim&TH Kim)A framework for variation discovery and genotyping using next-generation DNA sequencing data]<br />
|-<br />
| align="center"|2012-66<br />
|[http://bioinformatics.oxfordjournals.org/content/25/16/2078.long (ER Kim&TH Kim)The Sequence Alignment/Map format and SAMtools]<br />
|-<br />
| align="center"|2012-65<br />
|[http://bioinformatics.oxfordjournals.org/content/early/2011/06/07/bioinformatics.btr330 (ER Kim&TH Kim)The Variant Call Format and VCFtools]<br />
|-<br />
| align="center"|2012-64<br />
|[http://www.cell.com/abstract/S0092-8674(12)00104-3 (YH Go&HJ Han)The Impact of the Gut Microbiota on Human Health: An Integrative View]<br />
|-<br />
|align="center"|2012-63<br />
|[http://www.sciencemag.org/content/336/6086/1262.abstract (T Lee&CY Kim)Host-Gut Microbiota Metabolic Interactions]<br />
|-<br />
|align="center"|2012-62<br />
|[http://www.sciencemag.org/content/336/6086/1268.full (AR Cho,JH Ju)Interactions Between the Microbiota and the Immune System]<br />
|-<br />
|align="center"|2012-61<br />
|[http://www.sciencemag.org/content/336/6086/1255.abstract (SH Hwang&HJ Cho)The Application of Ecological Theory Toward an Understanding of the Human Microbiome]<br />
|-<br />
|align="center"|2012-60<br />
|[http://stm.sciencemag.org/content/4/137/137rv5 (SH Hwang&HJ Cho)Microbiota-Targeted Therapies: An Ecological Perspective]<br />
|-<br />
|rowspan = "3" |2012/07/13<br />
|align="center"|2012-59<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002358 (JH Shin&HJ Kim)Metabolic Reconstruction for Metagenomic Data and Its Application to the Human Microbiome]<br />
|-<br />
| align="center"|2012-58<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11209.html (JH Shin&HJ Kim)A framework for human microbiome research]<br />
|-<br />
|align="center"|2012-57<br />
|[http://www.nature.com/nature/journal/v486/n7402/full/nature11234.html (JH Shin&HJ Kim)Structure, function and diversity of the healthy human microbiome]<br />
|-<br />
|rowspan = "4" |2012/07/12<br />
|align="center"|2012-56<br />
|[http://nar.oxfordjournals.org/content/40/D1/D957.long (AR Cho&JH Ju)COLT-Cancer: functional genetic screening resource for essential genes in human cancer cell lines]<br />
|-<br />
|align="center"|2012-55<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1002511 (YH Go&HJ Han)Google Goes Cancer: Improving Outcome Prediction for Cancer Patients by Network-Based Ranking of Marker Genes]<br />
|-<br />
| align="center"|2012-54<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201147.html (YH Go&HJ Han)A pharmacogenomic method for individualized prediction of drug sensitivity]<br />
|-<br />
|align="center"|2012-53<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10983.html (JH Soh)The genomic and transcriptomic architecture of 2,000 breast tumours reveals novel subgroups]<br />
|-<br />
|rowspan = "6" |2012/07/09<br />
|align="center"|2012-52<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11003.html (ER Kim&TH Kim)The Cancer Cell Line Encyclopedia enables predictive modelling of anticancer drug sensitivity]<br />
|-<br />
|align="center"|2012-51<br />
|[http://www.nature.com/nature/journal/v483/n7391/full/nature11005.html (ER Kim&TH Kim)Systematic identification of genomic markers of drug sensitivity in cancer cells]<br />
|-<br />
| align="center"|2012-50<br />
|[http://www.pnas.org/content/early/2011/10/13/1018854108.abstract (ER Kim&TH Kim)Subtype and pathway specific responses to anticancer compounds in breast cancer]<br />
|-<br />
|align="center"|2012-49<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10945.html (JE Shim&KS Kim)De novo mutations revealed by whole-exome sequencing are strongly associated with autism]<br />
|-<br />
|align="center"|2012-48<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature11011.html (JE Shim&KS Kim)Patterns and rates of exonic de novo mutations in autism spectrum disorders]<br />
|-<br />
|align="center"|2012-47<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature10989.html (JE Shim&KS Kim)Sporadic autism exomes reveal a highly interconnected protein network of de novo mutations]<br />
|-<br />
|rowspan = "6" |2012/07/06<br />
| align="center"|2012-46<br />
|[http://www.g3journal.org/content/1/3/233.full (T Lee&CY Kim)Integrating Rare-Variant Testing, Function Prediction, and Gene Network in Composite Resequencing-Based Genome-Wide Association Studies (CR-GWAS)]<br />
|-<br />
|align="center"|2012-45<br />
|[http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1002621 (T Lee&CY Kim)Type 2 Diabetes Risk Alleles Demonstrate Extreme Directional Differentiation among Human Populations, Compared to Other Diseases]<br />
|-<br />
|align="center"|2012-44<br />
|[http://www.nature.com/nature/journal/v480/n7376/full/nature10665.html (AR Cho&JH Ju)Predicting mutation outcome from early stochastic variation in genetic interaction partners]<br />
|-<br />
|align="center"|2012-43<br />
|[http://www.sciencemag.org/content/335/6064/82 (AR Cho&JH Ju)Fitness Trade-Offs and Environmentally Induced Mutation Buffering in Isogenic C. elegans]<br />
|-<br />
| align="center"|2012-42<br />
|[http://genome.cshlp.org/content/22/6/1163 (JE Shim&KS Kim)Identification of microRNA-regulated gene networks by expression analysis of target genes]<br />
|-<br />
|align="center"|2012-41<br />
|[http://www.nature.com/ng/journal/v44/n6/full/ng.2303.html (JE Shim&KS Kim)Exome sequencing and the genetic basis of complex traits]<br />
|-<br />
|rowspan = "6" |2012/07/02<br />
|align="center"|2012-40<br />
|[http://www.cell.com/abstract/S0092-8674(12)00573-9 (JH Soh)Functional Repurposing Revealed by Comparing S. pombe and S. cerevisiae Genetic Interactions]<br />
|-<br />
|align="center"|2012-39<br />
|[http://genome.cshlp.org/content/22/2/375.long (ER Kim&TH Kim)De novo discovery of mutated driver pathways in cancer]<br />
|-<br />
| align="center"|2012-38<br />
|[http://www.nature.com/msb/journal/v4/n1/full/msb20082.html (YH Go&HJ Han)A systems biology approach to prediction of oncogenes and molecular perturbation targets in B-cell lymphomas]<br />
|-<br />
|align="center"|2012-37<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201126.html (SH Hwang&HJ Cho)PREDICT: a method for inferring novel drug indications with application to personalized medicine]<br />
|-<br />
|align="center"|2012-36<br />
|[http://www.nature.com/nature/journal/v453/n7198/full/nature06973.html (SH Hwang&HJ Cho)Synergistic response to oncogenic mutations defines gene class critical to cancer phenotype]<br />
|-<br />
|align="center"|2012-35<br />
|[http://www.sciencemag.org/content/334/6062/1518.full (JH Shin&HJ Kim)Detecting Novel Associations in Large Data Sets]<br />
|-<br />
|rowspan = "3" |2012/03/05<br />
| align="center"|2012-34<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|align="center"|2012-33<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|align="center"|2012-32<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |2012/02/27<br />2012/02/28<br />
| align="center"|2012-31<br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|align="center"|2012-30<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|align="center"|2012-29<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|align="center"|2012-28<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|align="center"|2012-27<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|align="center"|2012-26<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|align="center"|2012-25<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |2012/02/06<br />
| align="center"|2012-24<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|align="center"|2012-23<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|align="center"|2012-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|align="center"|2012-21<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|align="center"|2012-20<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |2012/01/30<br />
|align="center"|2012-19<br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|align="center"|2012-18<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|align="center"|2012-17<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|align="center"|2012-16<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|align="center"|2012-15<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />
|align="center"|2012-14<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|align="center"|2012-13<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|align="center"|2012-12<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |2012/01/09<br />2012/01/16<br />
| align="center"|2012-11<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|align="center"|2012-10<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|align="center"|2012-09<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|align="center"|2012-08<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|align="center"|2012-07<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|align="center"|2012-06<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-05<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|align="center"|2012-04<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|align="center"|2012-03<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |2012/01/09<br />2012/01/16<br />
|align="center"|2012-02<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|align="center"|2012-01<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|}<br />
2011<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "6" |2011/11/28<br />
|align="center"|2011-49<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|align="center"|2011-48<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|align="center"|2011-47<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|align="center"|2011-46<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|align="center"|2011-45<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|align="center"|2011-44<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" |2011/11/14<br />
|align="center"|2011-43<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|align="center"|2011-42<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|align="center"|2011-41<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" |2011/11/07<br />
|align="center"|2011-40<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|align="center"|2011-39<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|align="center"|2011-38<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|align="center"|2011-37<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" |2011/11/07 <br />
|align="center"|2011-36<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|align="center"|2011-35<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|align="center"|2011-34<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" |2011/10/05<br />
|align="center"|2011-33<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|align="center"|2011-32<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|align="center"|2011-31<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |2011/10/04<br />
|align="center"|2011-30<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|align="center"|2011-29<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|align="center"|2011-28<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|align="center"|2011-27<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |2011/09/19<br />
|align="center"|2011-26<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|align="center"|2011-25<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" |2011/09/05<br />
|align="center"|2011-24<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|align="center"|2011-23<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" |2011/09/22 <br />
|align="center"|2011-22<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|align="center"|2011-21<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|2011/06/20<br />
|align="center"|2011-20<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |2011/03/30<br />
|align="center"|2011-19<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|align="center"|2011-18<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
|rowspan = "2" |2011/03/16<br />
|align="center"|2011-17<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|align="center"|2011-16<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |2011/04/25<br />
|align="center"|2011-15<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|align="center"|2011-14<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|align="center"|2011-13<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |2011/04/11<br />
|align="center"|2011-12<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|align="center"|2011-11<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|2011/03/28<br />
|align="center"|2011-10<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|align="center"|2011-09<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|2011/03/14<br />
|align="center"|2011-08<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|align="center"|2011-07<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
|rowspan = "2"|2011/02/28<br />
|align="center"|2011-06<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|align="center"|2011-05<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|2011/02/21<br />
|align="center"|2011-04<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|2011/02/14<br />
|align="center"|2011-03<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|2011/01/31<br />
|align="center"|2011-02<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|align="center"|2011-01<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|}<br />
2010<br />
{|border ="1"<br />
|style="color:black; background-color:#dcdcdc;" align="center" |Date<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_index<br />
|style="color:black; background-color:#dcdcdc;" align="center"|Paper_title<br />
|-<br />
|rowspan = "2"|2010/12/27<br />
|align="center"|2010-29<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|align="center"|2010-28<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|2010/11/15<br />
|align="center"|2010-27<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|align="center"|2010-26<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|2010/11/01<br />
|align="center"|2010-25<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|align="center"|2010-24<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|2010/10/11<br />
|align="center"|2010-23<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|rowspan = "2"|2010/09/13<br />
|align="center"|2010-22<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
|-<br />
|align="center"|2010-21<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|2010/05/26<br />
|align="center"|2010-20<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|2010/05/19<br />
|align="center"|2010-19<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|2010/04/21<br />
|align="center"|2010-18<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|2010/04/14<br />
|align="center"|2010-17<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |2010/04/07<br />
|align="center"|2010-16<br />
|[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|align="center"|2010-15<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|rowspan="2"|2010/03/31<br />
|align="center"|2010-14<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
|-<br />
|align="center"|2010-13<br />
|[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|2010/03/24<br />
|align="center"|2010-12<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|2010/01/18<br />
|align="center"|2010-11<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|2010/01/16<br />
|align="center"|2010-10<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|2010/01/15<br />
|align="center"|2010-09<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|2010/01/14<br />
|align="center"|2010-08<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|2010/01/13<br />
|align="center"|2010-07<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|2010/01/12<br />
|align="center"|2010-06<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|2010/01/11<br />
|align="center"|2010-05<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|2010/01/09<br />
|align="center"|2010-04<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|2010/01/08<br />
|align="center"|2010-03<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|2010/01/07<br />
|align="center"|2010-02<br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|2010/01/06<br />
|align="center"|2010-01<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
<br />
<br />
<br />
<br />
<!--<br />
{| border ="1"<br />
{| border ="1"<br />
|rowspan = "3" |<br />
|rowspan = "3" |March 5 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18516045 (8,HH Kim)Mapping and quantifying mammalian transcriptomes by RNA-Seq.]<br />
|-<br />
|[http://genomebiology.com/2010/11/10/R106 (11,Go&Ju)Differential expression analysis for sequence count data]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/26/1/139.short (12,Go&Ju)edgeR: a Bioconductor package for differential expression analysis of digital gene expression data ]<br />
|-<br />
|rowspan = "7" |***<br />
|rowspan = "7" |February 27 Mon~28 Tue, 2012<br />
|rowspan = "7" | <br />
|[http://www.nature.com/nrg/journal/v10/n1/full/nrg2484.html (1,JW Song)RNA-Seq: a revolutionary tool for transcriptomics]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v8/n6/full/nmeth.1613.html (2,JW Song)Computational methods for transcriptome annotation and quantification using RNA-seq]<br />
|-<br />
|[http://genomebiology.com/2010/11/12/220 (3,HJ Han)From RNA-seq reads to differential expression results]<br />
|-<br />
|[http://www.nature.com/nmeth/journal/v7/n9/full/nmeth.1491.html (4,AR Cho)Comprehensive comparative analysis of strand-specific RNA sequencing methods]<br />
|-<br />
|[http://www.plosone.org/article/info:doi%2F10.1371%2Fjournal.pone.0026426 (5,T Lee)A Low-Cost Library Construction Protocol and Data Analysis Pipeline for Illumina-Based Strand-Specific Multiplex RNA-Seq]<br />
|-<br />
|[http://www.nature.com/nbt/journal/v28/n5/abs/nbt.1621.html (6,So&Shin)Transcript assembly and quantification by RNA-Seq reveals unannotated transcripts and isoform switching during cell differentiation]<br />
|-<br />
|[http://bioinformatics.oxfordjournals.org/content/25/9/1105.abstract (7,So&Shin)TopHat: discovering splice junctions with RNA-Seq]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |February 6 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3125733/ mirConnX: condition-specific mRNA-microRNA network integrator]<br />
|-<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1002190 Construction and Analysis of an Integrated Regulatory Network Derived from High-Throughput Sequencing Data]<br />
|-<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002415 A Densely Interconnected Genome-Wide Network of MicroRNAs and Oncogenic Pathways Revealed Using Gene Expression Signatures]<br />
|-<br />
|[http://genome.cshlp.org/content/20/5/589.short Reprogramming of miRNA networks in cancer and leukemia]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)01152-4 An Extensive MicroRNA-Mediated Network of RNA-RNA Interactions Regulates Established Oncogenic Pathways in Glioblastoma]<br />
|-<br />
|rowspan = "5" |<br />
|rowspan = "5" |January 30 Mon, 2012<br />
|rowspan = "5" | <br />
|[http://www.cell.com/abstract/S0092-8674(11)00237-6 Principles and Strategies for Developing Network Models in Cancer]<br />
|-<br />
|[http://www.nature.com/ng/journal/v37/n4/full/ng1532.html Reverse engineering of regulatory networks in human B cells]<br />
|-<br />
|[http://www.nature.com/nature/journal/v452/n7186/abs/nature06757.html Variations in DNA elucidate molecular networks that cause disease]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2779083/ Harnessing gene expression to identify the genetic basis of drug resistance]<br />
|-<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867410012936 An Integrated Approach to Uncover Drivers of Cancer]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18704161 Genetic variation in an individual human exome.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/22081227 Predicting phenotypic variation in yeast from individual genome sequences.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20435227 Clinical assessment incorporating a personal genome.]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "6" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20399638 Human allelic variation: perspective from protein function, structure, and evolution.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19561590 Predicting the effects of coding non-synonymous variants on protein function using the SIFT algorithm.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/11230178 Prediction of deleterious human alleles.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/12202775 Human non-synonymous SNPs: server and survey.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/20354512 A method and server for predicting damaging missense mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1920242/ SNAP: predict effect of non-synonymous polymorphisms on function]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "3" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21920052 Computational and statistical approaches to analyzing variants identified by exome sequencing.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/18179889 Shifting paradigm of association studies: value of rare single-nucleotide polymorphisms.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/19684571 Targeted capture and massively parallel sequencing of 12 human exomes.]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |January 9 Mon, 2012<br>January 16 Mon, 2012<br />
|rowspan = "2" | <br />
|[http://www.ncbi.nlm.nih.gov/pubmed/17637733 The distribution of fitness effects of new mutations.]<br />
|-<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1852724/ Most Rare Missense Alleles Are Deleterious in Humans: Implications for Complex Disease and Association Studies]<br />
|-<br />
|rowspan = "6" |<br />
|rowspan = "6" |November 28 Mon, 2011<br />
|rowspan = "6" | TY Oh, <br><br />
SH Hwang, <br><br />
JE Shim, <br><br />
S Beck, <br><br />
JH Shin<br />
|[http://bmir.stanford.edu/file_asset/index.php/1407/BMIR-2009-1355.pdf (Shin)Data-Driven Methods to Discover Molecular Determinants of Serious Adverse Drug Events]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v4/n11/abs/nchembio.118.html (Shin)Network pharmacology: the next paradigm in drug discovery]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201171.html (Oh)Systematic exploration of synergistic drug pairs]<br />
|-<br />
|[http://www.nature.com/msb/journal/v5/n1/full/msb200995.html (Shim)Chemogenomic profiling predicts antifungal synergies]<br />
|-<br />
|[http://www.pnas.org/content/104/32/13086 (Beck)A strategy for predicting the chemosensitivity of human cancers and its application to drug discovery]<br />
|-<br />
|[http://www.nature.com/nchembio/journal/v1/n7/full/nchembio747.html (Hwang)Analysis of drug-induced effect patterns to link structure and side effects of medicines]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 14 Mon, 2011<br />
|rowspan = "3" | HH Kim & AR Cho<br />
|[http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1000662 Network-Based Elucidation of Human Disease Similarities Reveals Common Functional Modules Enriched for Pluripotent Drug Targets]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb201131.html Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20115.html Analysis of multiple compound–protein interactions reveals novel bioactive molecules]<br />
|-<br />
|rowspan = "4" | <br />
|rowspan = "4" |November 7 Mon, 2011<br />
|rowspan = "4" | YH Ko<br />
|[http://www.nature.com/nbt/journal/v25/n10/abs/nbt1338.html Drug—target network]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb200998.html A side effect resource to capture phenotypic effects of drugs]<br />
|-<br />
|[http://genome.cshlp.org/content/18/2/206.long Quantitative systems-level determinants of human genes targeted by successful drugs]<br />
|-<br />
|[http://www.sciencemag.org/content/321/5886/263.short Drug Target Identification Using Side-Effect Similarity]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |November 7 Mon, 2011<br />
|rowspan = "3" | JW Song<br />
|[http://stm.sciencemag.org/content/3/96/96ra77.short Discovery and Preclinical Validation of Drug Indications Using Compendia of Public Gene Expression Data]<br />
|-<br />
|[http://bib.oxfordjournals.org/content/12/4/303.short Exploiting drug–disease relationships for computational drug repositioning]<br />
|-<br />
|[http://www.springerlink.com/content/4489r051nu2t0ul1/ Drug Discovery in a Multidimensional World: Systems, Patterns, and Networks]<br />
|-<br />
|rowspan = "3" | <br />
|rowspan = "3" |October 5 Mon, 2011<br />
|rowspan = "3" | HH Kim<br />
|[http://genome.cshlp.org/content/20/7/960.full Analysis of membrane proteins in metagenomics: Networks of correlated environmental features and protein families]<br />
|-<br />
|[http://www.pnas.org/content/106/5/1374.full Quantifying environmental adaptation of metabolic pathways in metagenomics]<br />
|-<br />
|[http://www.pnas.org/content/104/35/13913.abstract Quantitative assessment of protein function prediction from metagenomics shotgun sequences]<br />
|-<br />
|rowspan = "4" |<br />
|rowspan = "4" |October 4 Mon, 2011<br />
|rowspan = "4" | S Beck<br />
|[http://www.nature.com/nature/journal/v464/n7285/full/nature08821.html A human gut microbial gene catalogue established by metagenomic sequencing]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v6/n9/abs/nrmicro1935.html Molecular eco-systems biology: towards an understanding of community function]<br />
|-<br />
|[http://genome.cshlp.org/content/early/2009/04/20/gr.085464.108 Microbial community profiling for human microbiome projects: Tools, techniques, and challenges]<br />
|-<br />
|[http://www.nature.com/nrmicro/journal/v9/n4/full/nrmicro2540.html Unravelling the effects of the environment and host genotype on the gut microbiome]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |September 19 Mon, 2011<br />
|rowspan = "2" | TY Oh<br />
|[http://www.sciencemag.org/content/333/6042/596.full independently evolved virulence effectors converge onto hubs in a plant immune system Network]<br />
|-<br />
|[http://www.sciencemag.org/content/333/6042/601.full Evidence for network evolution in an arabidopsis interactome Map]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" |September 5 Mon, 2011<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science/article/pii/S0092867411005861 Exome Sequencing of Ion Channel Genes Reveals Complex Profiles Confounding Personal Risk Assessment in Epilepsy]<br />
|-<br />
|SH Hwang<br />
|[http://www.cell.com/abstract/S0092-8674(11)00543-5 Pluripotency factors in Embryonic stem cells Regulate Differentiation into Germ Layers]<br />
|-<br />
|rowspan = "2" | <br />
|rowspan = "2" | August 22 Mon, 2011<br />
|ER Kim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002077 Integrated Genome-scale predition of Detrimental Mutations in Transcription Networks]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/nrg/journal/v12/n4/abs/nrg2969.html From expression QTLs to personalized transcriptomics]<br />
|-<br />
|<br />
|June 20 Mon, 2011<br />
|JH Shin<br />
|[http://www.plosbiology.org/article/info%3Adoi%2F10.1371%2Fjournal.pbio.1001046 a user's guide to the encyclopedia of DNA elements(ENCODE)]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 30 Mon, 2011<br />
|rowspan = "2" | HH Kim<br />
|[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature09944.html enterotypes of the human gut microbiome]<br />
|-<br />
|[http://www.nature.com/msb/journal/v7/n1/full/msb20116.html toward molecular trait-based ecology, through intergration of biogeochemical, geographical and metagenomic data]<br />
|-<br />
<br />
|rowspan = "2" |<br />
|rowspan = "2" | May 16 Mon, 2011<br />
|rowspan = "2" | AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1002047 variable pathogenicity determines individual lifespan in ''caenorhabditis elegans'']<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00371-0 a high-resolution ''c.elegans'' essential gene network based on phenotypic profiling of a complex tissue]<br />
|-<br />
|rowspan = "3" |<br />
|rowspan = "3" |April 25 Mon, 2011<br />
|rowspan = "3" |S Beck<br />
|[http://www.ncbi.nlm.nih.gov/pubmed/21376230 Hallmarks of Cancer : The next generation]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00296-0 Mapping Cancer Origins]<br />
|-<br />
|[http://www.cell.com/abstract/S0092-8674(11)00297-2 Genetic Interactions in Cancer Progression and Treatment]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 11 Mon, 2011<br />
|JE Shim<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1001273 Proteins encoded in genomic regions associated with immune-mediated disease physically interact and suggest underlying biology]<br />
|-<br />
|T Lee<br />
|***Changed!***<br />
[http://www.ncbi.nlm.nih.gov/pubmed/19557189 Identifying relationships among genomic disease regions: predicting genes at pathogenic SNP associations and rare deletions]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 28 Mon, 2011<br />
|rowspan = "2"|TY Oh<br />
|[http://www.pnas.org/content/106/44/18843.long profiling translatomes of discrete cell populations resolves altered cellular priorities during hypoxia in Arabidopsis]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201076.html cell-type specific analysis of translating RNAs in developing flowers reveals new levels of control]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|March 14 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6WSN-51SFHJD-1&_user=44062&_coverDate=01%2F07%2F2011&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=2f6017aab4c794ed7e78fbbd8447077a&searchtype=a phenotypic landscape of a bacterial cell]<br />
|-<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb2010107.html cross-species chemogenomic profiling reveals evolutionarily conserved drug mode of action]<br />
|-<br />
<br />
|rowspan = "2"|<br />
|rowspan = "2"|February 28 Mon, 2011<br />
|KS Kim<br />
|[http://www.pnas.org/content/early/2010/09/23/1004666107.abstract genomic patterns of pleiotropy and the evolution of complexity]<br />
|-<br />
|HJ Han<br />
|[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1001009 simultaneous genome-wide inference of physical, genetic, regulatory, and functional pathway]<br />
|-<br />
|<br />
|February 21 Mon, 2011<br />
|MH Lee<br />
|[http://www.nature.com/msb/journal/v6/n1/full/msb201071.html dynamic interaction networks in a hierarchically organized tissue]<br />
|-<br />
|<br />
|February 14 Mon, 2011<br />
|AR Cho<br />
|[http://www.sciencemag.org/content/330/6009/1385.abstract rewiring of genetic networks in response to DNA damage]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|January 31 Mon, 2011<br />
|rowspan = "2"|JW Song<br />
|[http://www.nature.com/nrg/journal/v10/n9/abs/nrg2633.html Applying mass spectrometry-based proteomics to genetics, genomics and network biology]<br />
|-<br />
|[http://physiolgenomics.physiology.org/content/33/1/18.long Data analysis and bioinformatics tools for tandem mass spectrometry in proteomics]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2" | December 27 Mon, 2010<br />
|ER Kim<br />
|[http://www.nature.com/nature/journal/v467/n7312/full/nature09326.html Functional_roles_fornoise_in_genetic_circuits]<br />
|-<br />
|T Lee<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.610.html Estimation_of_effect_size_distribution_from_genome-wide_association_studies_and_implications_for_future_discoveries]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 15 Mon, 2010<br />
|AR Cho<br />
|[http://www.plosgenetics.org/article/info%3Adoi%2F10.1371%2Fjournal.pgen.1000932 Liver_and_Adipose_Expression_associated_SNPs_are_enriched_for_association_to_type_2_diabetes]<br />
|-<br />
|SG Ji<br />
|[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B8JDC-50J4MRJ-2&_user=44062&_coverDate=10%2F10%2F2010&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_acct=C000004738&_version=1&_urlVersion=0&_userid=44062&md5=7667a67cf8ba3f68117b8d0ff85a8887&searchtype=a It's_the_machine_that_matters:_predicting_gene_function_and_phenotype_from_protein_networks]<br />
|-<br />
|rowspan = "2"|<br />
|rowspan = "2"|November 1 Mon, 2010<br />
|HH Kim<br />
|[http://genome.cshlp.org/content/early/2010/06/15/gr.104216.109 A_genome-wide_map_of_human_genetic_interactions_inferred_from_radiation_hybrid_genotypes]<br />
|-<br />
|JH Shin<br />
|[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0012139 A_Genome-Wide_Gene_Function_Prediction_Resource_for_Drosophila_melanogaster]<br />
|-<br />
|<br />
|October 11 Mon, 2010<br />
|JE Shim<br />
|[http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2913399/?tool=pubmed Dissecting_spatio-temporal_protein_networks_driving_human_heart_development_and_related_disorders]<br />
|-<br />
|<br />
|September 13 Mon, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/ng/journal/v42/n7/full/ng.600.html Transposable_elements_have_rewired_the_core_regulatory_network_of_human_embryonic_stem_cells]<br />
[http://www.nature.com/ng/journal/v42/n7/full/ng0710-557.html Limits_of_sequence_and_functional_conservation]<br />
|-<br />
|<br />
|May 26 Wed, 2010<br />
|AR Cho<br />
|[[media:100428_network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf|network_based_elucidation_of_human_disease_similarities_reveals_common_functional_modules_enriched_for_pluripotent_drug_targets.pdf]]<br />
|-<br />
|<br />
|May 19 Wed, 2010<br />
|SG Ji<br />
|[[media:100421_interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf|interpreting_metabolomic_profiles_using_unbiased_pathway_models.pdf]]<br />
|-<br />
|<br />
|April 21 Wed, 2010<br />
|JH Shin<br />
|[[media:100414_identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf|identification_of_networks_of_co_occurring_tumor_related_dna_copy_number_changes_using_a_genome_wide_scoringapproach.pdf]]<br />
|-<br />
|<br />
|April 14 Wed, 2010<br />
|TY Oh<br />
|[http://www.cell.com/retrieve/pii/S0092867410000796 an_atlas_of_combinatorial_transcriptional_regulation_in_mouse_and_man]<br />
|-<br />
|rowspan = "2" |<br />
|rowspan = "2" |April 7 Wed, 2010<br />
|HHkim<br />
|<br />
[http://www.pnas.org/content/early/2010/03/11/0910200107.long systematic_discovery_of_nonobvious_human_disease_models_through_orthologous_phenotypes]<br />
|-<br />
|T Lee<br />
|<br />
[http://www.nature.com/nature/journal/vaop/ncurrent/full/nature08800.html genome_side_association_study_of_107_phenotypes_in_Arabidopsis_thaliana_inbred_lines]<br />
|-<br />
|<br />
|Mar 31 Wed, 2010<br />
|JE Shim<br />
|[[media:100331_toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf|toward_stem_cell_systems_biology_from_molecules_to_networks_and_landscapes.pdf]]<br />
[http://www.nature.com/nrm/journal/v10/n10/abs/nrm2766.html systems_biology_of_stem_cell_fate_and_cellular_reprogramming]<br />
|-<br />
|<br />
|Mar 24 Wed, 2010<br />
|SH Hwang<br />
|[http://www.nature.com/nbt/journal/v27/n2/abs/nbt.1522.html dynamic_modularity_in_protein_interaction_networks_predicts_breast_cancer_outcome]<br />
|-<br />
|<br />
|Jan 18 Mon, 2010<br />
|TY Oh(T Lee)<br />
|JournalClub_100118_a_tutorial_on_statistical_methods_for_population_association_studies<br />
|-<br />
|<br />
|Jan 16 Sat, 2010<br />
|JE Shim(MH Lee)<br />
|systems-level_dinamic_analyses_of_fate_change_in_murine_embryonic_stem_cells<br />
|-<br />
|<br />
|Jan 15 Fri, 2010<br />
|SG Ji<br />
|distinguishing_direct_versus_indirect_transcription_factor-DNA-interactions<br />
|-<br />
|<br />
|Jan 14 Thu, 2010<br />
|HH kim<br />
|chemogenomic_profiling_predicts_antifungal_synergies<br />
|-<br />
|<br />
|Jan 13 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|edgetic_perturbation_models_of_human_inherited_disorders<br />
|-<br />
|<br />
|Jan 12 Tue, 2010<br />
|TY Oh(T Lee)<br />
|analysis_of_cell_fate_from_single-cell_gene_expression_profiles_in_C.elegans<br />
|-<br />
|<br />
|Jan 11 Mon, 2010<br />
|JE Shim(MH Lee)<br />
|predicting_new_molecular_targets_for_known_drugs.pdf<br />
Reference:SEA(Similarity Ensemble Approach)<br />
|-<br />
|<br />
|Jan 09 Sat, 2010<br />
|SG Ji<br />
|harnessing_gene_expression_to_identify_the_genetic_basis_of_drug_resistance<br />
|-<br />
|<br />
|Jan 08 Fri, 2010<br />
|AR Cho<br />
|an_integrative_approach_to_reveal_driver_gene_fusions_from_paired_end_sequencing_data_in_cancer<br />
|-<br />
|<br />
|Jan 07 Thu, 2010<br />
|HH Kim <br />
|a_phenotypic_profile_of_the_candida_albicans_regulatory_network<br />
|-<br />
|<br />
|Jan 06 Wed, 2010<br />
|JH Shin(ER Kim)<br />
|a_global_view_of_protein_expression_in_human_cells_tissues_and_organs<br />
|}<br />
--></div>
Choiismath
https://netbiolab.org/w/People:IS_Choi
People:IS Choi
2020-09-14T04:35:13Z
<p>Choiismath: /* Ilseok Choi */</p>
<hr />
<div>===Ilseok Choi===<br />
{|<br />
|[[File:KakaoTalk 20200914 132021053.jpg|300px]]<br />
|<br />
*'''Ph.D's program student''' (2020~), Department of Biotechnology, Yonsei University<br />
*'''B.S.''' (2016-2020), Department of Biotechnology, Yonsei University<br />
E-mail: choiismath@yonsei.ac.kr<br />
<br />
* '''Current research topic(s)'''<br />
** Single Cell Genomics<br />
** Analysis of clinical cancer<br />
** scRNA-seq data <br />
<br />
<br />
* '''Favorite'''<br />
** Draft Beer<br />
|}</div>
Choiismath
https://netbiolab.org/w/People
People
2020-09-14T04:33:31Z
<p>Choiismath: /* Graduate Student */</p>
<hr />
<div>__NOTOC__<br />
=='''Principal Investigator'''==<br />
{|border="0" width="150"<br />
|align="center"|[[File:이인석-2011사진.jpg|90px|link=people:IS_Lee]]<br />
|-<br />
|align="center"|[[people:IS_Lee|<big>'''Insuk Lee'''</big>]]<br />
|-<br />
|}<br />
<br />
=='''Postdoc Fellow & Research Staff'''==<br />
{|border="0" width="400"<br />
|align="center" |[[File:People_KSKim.jpg|70px|link=people:KS_Kim]]<br />
|align="center"|[[File:Smyang.jpg|70px|link=people:SM_Yang]]<br />
|align="center"|[[File:SYLee.jpg|70px|link=people:SY_Lee]]<br />
|-<br />
|align="center"|[[people:KS_Kim|<big>'''Kyungsoo Kim'''</big>]]<br />
|align="center"|[[people:SM_Yang|<big>'''Sunmo Yang'''</big>]]<br />
|align="center"|[[people:SY_Lee|<big>'''Sangyoung Lee'''</big>]]<br />
|-<br />
|align="center"|[[people:KS_Kim|Postdoc Fellow<br/>]]<br />
|align="center"|[[people:SM_Yang|Bioinformatics<br/>Programmer<br/>& Sys. Admin]]<br />
|align="center"|[[people:SY_Lee|Senior<br/>Research Assistant]]<br />
|}<br />
<br />
=='''Graduate Student'''==<br />
{|border="0" width="1000"<br />
|align="center"|[[File:cykim.PNG|70px|link=People:CY_Kim]]<br />
|align="center"|[[File:Cho_JW.png|70px|link=People:J_Cho]]<br />
|align="center"|[[File:2019_sungho.png|70px|link=People:S_Lee]]<br />
|align="center"|[[File:Junha_Cha_profile2.png|70px|link=People:JH_Cha]]<br />
|align="center"|[[File:나연.png|70px|link=People:NY_Kim]]<br />
|align="center"|[[File:Bsb pic 2.jpg|70px|link=People:SB_Baek]]<br />
|align="center"|[[File:KakaoTalk 20200914 132021053.jpg|70px|link=People:IS_Choi]]<br />
|align="center"|[[File:chajh profile.jpg|70px|link=People:Junhyeong_Cha]]<br />
|-<br />
|align="center"|[[People:CY Kim|<big>'''Chan Yeong Kim'''</big>]]<br />
|align="center"|[[People:J_Cho|<big>'''Jae-Won Cho'''</big>]]<br />
|align="center"|[[People:S_Lee|<big>'''Sungho Lee'''</big>]]<br />
|align="center"|[[People:JH_Cha|<big>'''Junha Cha'''</big>]]<br />
|align="center"|[[People:NY_Kim|<big>'''Nayeon Kim'''</big>]]<br />
|align="center"|[[People:SB_Baek|<big>'''Seungbyn Baek'''</big>]]<br />
|align="center"|[[People:IS_Choi|<big>'''Ilseok Choi'''</big>]]<br />
|align="center"|[[People:Junhyeong_Cha|<big>'''Junhyeong Cha'''</big>]]<br />
|-<br />
|align="center"|[[people:CY Kim|Ph.D candidate<br/>(2015.3 - )]]<br />
|align="center"|[[people:J_Cho|Ph.D candidate<br/>(2016.9 - )]]<br />
|align="center"|[[People:S_Lee|Ph.D candidate<br/>(2017.3 - )]]<br />
|align="center"|[[People:JH_Cha|Master's course<br/>(2019.9 - )]]<br />
|align="center"|[[People:NY_Kim|Master's course<br/>(2019.9 - )]]<br />
|align="center"|[[People:SB_Baek|Master's course<br/>(2019.9 - )]]<br />
|align="center"|[[People:IS_Choi|Ph.D's course<br/>(2020.9 - )]]<br />
|align="center"|[[People:Junhyeong_Cha|Master's course<br/>(2020.9 - )]]<br />
|}<br />
<br />
=='''Undergraduate Student'''==<br />
*Junyeong Ma<br />
*Euijung Seong<br />
<br />
=='''Alumni'''==<br />
*'''Former Post-docs and Staff Scientists'''<br />
**Taeyun Oh (2009.5-2011.12), currently Deputy Principal Consultant (인실리코젠 생명정보분석컨설턴트), [http://www.insilicogen.com INSILICOGEN], Korea <br />
**Sohyun Hwang (2010.3-2015.8), currently Assistant Professor (차의과대학 의과학과 교수), [http://bt.cha.ac.kr/ Department of Biomedical Science, CHA University], Korea <br />
**Samuel Beck (2011.2-2011.12), currently Assistant Professor of Computational Biology, The Mount Desert Island Biological Laboratory, Maine, USA (미국 MDI 생명과학연구소 교수), [https://mdibl.org/faculty/sam-beck-ph-d/ Lab Homepage]<br />
**Jawon Song (2011.1-2012.5), currently Research Associate (미국 텍사스슈퍼컴퓨팅센터 선임연구원), [https://www.tacc.utexas.edu/about/directory/jawon-song Texas Advanced Computing Center], Austin, TX, USA<br />
**Yoonhee Ko (2012.8-2014.2), currently Assistant Professor (한국외국어대 바이오공학과 교수), [http://bme.hufs.ac.kr/ Department of Biomedical Engineering, Hankuk University of Foreign Studies], Korea <br />
**Jonghoon Lee (2013.10-2014.2), currently Assistant Professor (차의과대학 식품생명공학과 교수), [http://fsb.cha.ac.kr/ Department of Food Science and Biotechnology, CHA University], Korea <br />
**Jung Eun Shim (2009.8-2017.11), currently Researcher at Yonsei Genomics Center Bioinformatics Data Analysis Core (연세의료원 유전체센터 생명정보분석코어 선임연구원)<br />
<br />
*'''Former Graduate Students (Ph.D)'''<br />
**Junha Shin (2008.9-2014.2), PhD; currently Postdoc Fellow, University of Wisconsin-Madison (미국 위스콘신주립대 박사후연구원), USA [https://roylab.discovery.wisc.edu/ Roy Lab]<br />
**Hanhae Kim (2008.9-2015.2), PhD; currently Associate Research Fellow (한국과학기술기획평가원 부연구위원), [http://www.kistep.re.kr Korea Institute of S&T Evaluation and Planning (KISTEP)]<br />
**Ara Cho (2008.9-2015.2), PhD; currently Associate Research Fellow (한국과학기술기획평가원 부연구위원), [http://www.kistep.re.kr Korea Institute of S&T Evaluation and Planning (KISTEP)]<br />
**Eiru Kim (2010.9-2016.8), PhD; currently Postdoc Fellow, MD Anderson Cancer Center, Texas, USA (미국 엠디앤더슨암센터 박사후연구원) [http://www.hart-lab.org/ Hart Lab]<br />
**Tak Lee (2011.3-2017.2), PhD; currently Postdoc Fellow, Sainsbury Laboratory at University of Cambridge, UK (영국 케임브리지대학 박사후연구원) [https://www.slcu.cam.ac.uk/research/oldroyd-group Oldroyd Lab] [https://www.slcu.cam.ac.uk/research/ahnert-group Ahnert Lab]<br />
**Heonjong Han (2011.3~2019.8), PhD; currently Bioinformatics engineer at [https://3billion.io/ 3billion]<br />
<br />
*'''Former Graduate Students (Master's degree)'''<br />
**Sun-Gou Ji (2009.9-2011.8), M.Eng.; PhD from University of Cambridge (Sanger Genome center); currently Associate Director, Statistical Genetics at [https://bridgebio.com/ BridgeBio], USA<br />
**Hyojin Kim (2013.3-2015.2), M.Eng.; currently Bioinformatics Scientist, Aachen University, Germany <br />
**Hongseok Shim (2013.9-2015.8), M.Eng.; currently PhD student, Arizona State University, Biomedical Informatics program<br />
**Sunmo Yang (2014.9-2017.2), M.Eng. currently Bioinformatics programmer, Yonsei University<br />
**Muyoung Lee (2016.3-2018.2), M.Eng. currently PhD student, University of Texas at Austin, Cellular and Molecular Biology Program<br />
<br />
*'''Former Visiting Scientists/Students'''<br />
**Minkyung Shin (2012.3-2012.7), went to University of Southern California graduate school<br />
**Paul Chung (2012 summer), currently E-Commerce Analyst/Coordinator at [http://www.riotgames.com/ Riot Games], USA<br />
**Hyunjin Cho (2014 summer), currently Bioinformatics research assistant at [http://www.libd.org/ The Lieber Institute for Brain Development | LIBD], USA<br />
**Michael Chung (2016.8-2016.12), currently work at [https://www.facebook.com/ Facebook], USA<br />
<br />
*'''Former Undergraduate Students'''<br />
**Ila Shin, went to medical school (Yonsei Univ.)<br />
**Yoonkyung Ko<br />
**Sangyo Park, went to law school (Kyounghee Univ.)<br />
**Jayoon Shin, went to medical school (Pusan National Univ.)<br />
**Dongjoo Sun, went to dental school (Wongwang Univ.)<br />
**Eulsoo Kim<br />
**Myungwhan Lee, went to medical school (Yonsei Univ.)<br />
**Moonhee Lee, went to graduate school (University of Amsterdam, Netherlands)<br />
**Jinhyun Ju, went to graduate school (Cornell Medical School, Computational Systems Biology); Currently Bioinformatics Scientist, [https://guardanthealth.com/ Guardant Health] San Diego, USA <br />
**Haeyoung Shin, went to graduate school (Brown University, Computational Neuroscience)<br />
**Joonghee Soh, went to graduate school (KAIST, Culture Technology)<br />
**Hee Jung Cho, went to graduate school (UC Berkeley) <br />
**TaeHwan Kim, went to medical school<br />
**Joohyung Kim, went to medical school (Kyungpook National Univ.)<br />
**Donghyun Shin, went to medical school (Yonsei Univ.)<br />
**Byunghee Kang (2015 spring - 2016 summer), went to graduate school (PosTech)<br />
**Sunphil Kim (2016 winter)<br />
**Jaeho Shim (2016 winter)<br />
**Seunghyun Shin (2016 spring)<br />
**Aejoo Hong (2016 spring)<br />
**Changbae Bang (2016 summer), went to medical school (Yonsei Univ.)<br />
**Seoyoung Choi (2016 summer)<br />
**Dabin Jung (2016 summer)<br />
**Boreum Nam (2016 summer)<br />
**Seungun Lee (2016 summer)<br />
**Yeaji Kim (2016 summer and fall)<br />
**Sangyoung Lee (2017 winter)<br />
**Heejun Jang (2017 winter & spring), went to KIST as Research Assistant<br />
**Jungha Lee (2017 summer), went to graduate school (Seoul National Univ.)<br />
**Seunghyun Wang (2017 summer), went to graduate school (KAIST)<br />
**Dong-Min Yang (2017 fall)<br />
**Doo-Hee Lee (2017 fall)<br />
**Suk-Jae Han (2018 winter)<br />
**Ji-Eun Han (2018 winter)<br />
**Yuri Ko (2018 spring)<br />
**Sung-Woo Kim (2018 spring)<br />
**Woosung Kwon (2018 summer)<br />
**Soyun Kong (2018 summer)<br />
**Hojeong Keum (2018 summer and fall)<br />
**Sungjun Lim (2018 summer and fall)<br />
**Jiyoon Lee (2018 summer and fall)<br />
**Ilseok Choi(2019 winter, spring, summer and fall, 2020 winter, spring)<br />
**Junik Park (2019 winter)<br />
**Lee Yoo (2019 winter & spring)<br />
**Yeonwha Kim (2019 winter & spring)<br />
**Sohee Kim (2019 spring)<br />
**Juseong Lee (2019 spring)<br />
**Junyoung Yang (2019 spring & summer)<br />
**Junyoung Ma (2019 summer, 2020 winter, summer, fall)<br />
**Dayun Jung (2019 summer)<br />
**Hanjoon Kim (2019 summer)<br />
**Hyungjin Kim (2020 winter, spring)<br />
**Sujin Hyun (2020 winter)<br />
**Hyuki Lee (2020 winter)<br />
**Donghwan Lee (2020 winter)<br />
**Junhyung Cha (2020 spring, summer)<br />
**Jiwon Yu (2020 summer)<br />
**Dong Seok Kim (2020 summer)<br />
**Donggeun Lee (2020 summer)<br />
**Sehun Ahn (2020 summer)<br />
**Jiho Kim (2020 summer)</div>
Choiismath
https://netbiolab.org/w/File:KakaoTalk_20200914_132021053.jpg
File:KakaoTalk 20200914 132021053.jpg
2020-09-14T04:24:58Z
<p>Choiismath: </p>
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Choiismath