Difference between revisions of "Research"

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==Research Highlight==
 
==Research Highlight==
*[[media:research_highlight_001.pdf|Networking an organism]]
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*[[media:research_highlight_004.pdf|2011 Nature Reviews Genetics, Research highlight: A network of interactors]]
*[[media:research_highlight_002.pdf|Predicting phenotypic effects of gene perturbations in ''C. elegans'' using an integrated network model]]
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*[[media:research_highlight_002.pdf|2008 Bioessay: Predicting phenotypic effects of gene perturbations in ''C. elegans'' using an integrated network model]]
*[[media:research_highlight_003.pdf|Wormnet: a crystal ball for ''Caenorhabditis elegans'']]
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*[[media:research_highlight_003.pdf|2008 Wormnet: a crystal ball for ''Caenorhabditis elegans'']]
*[[media:research_highlight_004.pdf|A network of interactors]]
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*[[media:research_highlight_001.pdf|2008 Nature methods, Research highlight: Networking an organism]]
*[[media:Gallery_NGcover_SmallVer.jpg|Network perturbation predicts phenotype]]
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*[[media:Gallery_NGcover_SmallVer.jpg|2008 Nature Genetics coverstory: Network perturbation predicts phenotype]]
  
 
==Collaborators==
 
==Collaborators==

Revision as of 21:37, 26 May 2011

Contents

Research Summary

The ultimate goal of biological research is to manipulate traits that are important for medicine, agriculture, and bio-industry. This challenging task first requires good understanding of association between genotype and phenotype. Because of high complexity of genotype as well as phenotype, complexity of the genotype-phenotype association could be even untouchable by combinatorial explosion of the number of possible associations. Therefore, modern genetics needs to be more systematic and predictive. Recently we proposed network-guided approach for genetics of complex traits. First, we construct probabilistic functional gene networks for cells or organisms by benchmarking and integrating heterogeneous multi-omics data that are in general publicly available. Then, using guilt-by-association, and other algorithms of network propagation of known biological information, we predict gene functions, phenotypic effect of loss-of-function, and epistatic interaction. The information can contribute to reconstruction of map between genotype and phenotype. The network-guided genetics method has been effectively applied for various organisms; from simple microbe yeast, to multicellular animal C. elegans, to the reference plant Arabidopsis, to the reference crop rice, and to the human.

Research Philosophy

4P Research (Play, Ponder, Pride, Provide)

  • Play: Your lab must be your playground.
  • Ponder: More thinking, Less labor.
  • Pride: Be proud of yourself and your work.
  • Provide: People supported your work, thus you must return your discovery to people.

Good science must make scientists happy.

The more learn, the less know.

Research Highlight

Collaborators

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