Huey Ling Kao scite author profile

At least 10% of C. elegans genes are predicted miRNA targets, and a number of nematode miRNAs seem to regulate biological processes by targeting functionally related genes. We have also developed and successfully utilized an in vivo system for testing miRNA target predictions in likely endogenous expression domains. The thousands of genome-wide miRNA target predictions for nematodes, humans, and flies are available from the PicTar website and are linked to an accessible graphical network-browsing tool allowing exploration of miRNA target predictions in the context of various functional genomic data resources.

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A High-Resolution C. elegans Essential Gene Network Based on Phenotypic Profiling of a Complex Tissue

Green

Kao

Audhya

et al. 2011

Cell

209

260

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SUMMARY High-content screening for gene profiling has generally been limited to single cells. Here, we explore an alternative approach—profiling gene function by analyzing effects of gene knockdowns on the architecture of a complex tissue in a multicellular organism. We profile 554 essential C. elegans genes by imaging gonad architecture and scoring 94 phenotypic features. To generate a reference for evaluating methods for network construction, genes were manually partitioned into 102 phenotypic classes, predicting functions for uncharacterized genes across diverse cellular processes. Using this classification as a benchmark, we developed a robust computational method for constructing gene networks from high-content profiles based on a network context-dependent measure that ranks the significance of links between genes. Our analysis reveals that multi-parametric profiling in a complex tissue yields functional maps with a resolution similar to genetic interaction-based profiling in unicellular eukaryotes—pinpointing subunits of macromolecular complexes and components functioning in common cellular processes.

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Empirically controlled mapping of the Caenorhabditis elegans protein-protein interactome network

et al. 2008

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A Protein Domain-Based Interactome Network for C. elegans Early Embryogenesis

Boxem

Maliga

Klitgord

et al. 2008

Cell

199

166

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Summary Many protein-protein interactions are mediated through independently folding modular domains. Proteome-wide efforts to model protein-protein interaction or “interactome” networks have largely ignored this modular organization of proteins. We developed an experimental strategy to efficiently identify interaction domains and generated a domain-based interactome network for proteins involved in C. elegans early embryonic cell divisions. Minimal interacting regions were identified for over 200 proteins, providing important information on their domain organization. Furthermore, our approach increased the sensitivity of the two-hybrid system, resulting in a more complete interactome network. This interactome modeling strategy revealed new insights into C. elegans centrosome function and is applicable to other biological processes in this and other organisms.

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A Protein Domain-Based Interactome Network for C. elegans Early Embryogenesis

Boxem¹,

Maliga²,

Klitgord³

et al. 2012

Cell

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Huey Ling Kao

A Genome-Wide Map of Conserved MicroRNA Targets in C. elegans

A High-Resolution C. elegans Essential Gene Network Based on Phenotypic Profiling of a Complex Tissue

Empirically controlled mapping of the Caenorhabditis elegans protein-protein interactome network

A Protein Domain-Based Interactome Network for C. elegans Early Embryogenesis

A Protein Domain-Based Interactome Network for C. elegans Early Embryogenesis

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