Unlocking the secrets of the genome

S Celniker(Lawrence Berkeley National Laboratory), Laura A. L. Dillon(National Human Genome Research Institute), Mark Gerstein(Yale University), Kristin C. Gunsalus(New York University), Steven Henikoff(Fred Hutch Cancer Center), Gary H. Karpen(Lawrence Berkeley National Laboratory), Manolis Kellis(Broad Institute), Eric C. Lai(Kettering University), Jason D. Lieb(University of North Carolina at Chapel Hill), David M. MacAlpine(Duke University Hospital), Gos Micklem(University of Cambridge), Fabio Piano(New York University), M Snyder(Yale University), Lincoln Stein(Cold Spring Harbor Laboratory), Kevin P. White(University of Chicago), R Waterston(University of Washington)
Nature
June 17, 2009
10.1038/459927a
Cited by 817Open Access
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Abstract

Despite the successes of genomics, little is known about how genetic information produces complex organisms. A look at the crucial functional elements of fly and worm genomes could change that. The National Human Genome Research Institute's modENCODE project (the model organism ENCyclopedia Of DNA Elements) was set up in 2007 with the goal of identifying all the sequence-based functional elements in the genomes of two important experimental organisms, Caenorhabditis elegans and Drosophila melanogaster. Armed with modENCODE data, geneticists will be able to undertake the comprehensive molecular studies of regulatory networks that hold the key to how complex multicellular organisms arise from the list of instructions coded in the genome. In this issue, modENCODE team members outline their plan of campaign. Data from the project are to be made available on http://www.modencode.org and elsewhere as the work progresses.

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