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5 U01 U01HG04276

Encyclopedia of C elegans 3'UTRS and their regulatory el

Principal Investigator:

Fabio Piano OFFICE OF SPONSORED PROGRAMS 15 WASHINGTON PLACE APARTMENT 1-H

Project Period: 05/04/2007 - 03/31/2011

Abstract (from grant application):

DESCRIPTION (provided by the applicant): We have organized a 3'UTRome Consortium whose modENCODE goal is to map all 3' untranslated regions (3'UTRs) and their functional sequence elements in C. elegans. 3'UTRs are DNA encoded elements that are co-transcribed along with mRNAs and whose role is to regulate the activity of mRNA. We currently have only a partial and biased view of the global 3'UTRs sequences (3'UTRome) for any metazoan and have even less information on the motifs in the 3'UTRs that are used by trans-acting factors to drive gene regulation. Yet, what is known reveals a high level of complexity where 3'UTRs are often tissue-specific or are subject to alternative splicing events that lead to 3'UTR sequence diversity that parallels the diversity seen within the coding region of the transcript. Small non-coding RNAs (eg. microRNAs) are a class of posttranscriptional regulators that function through motifs found in the 3'UTRs; however only a subset of 3'UTR::microRNA motifs are though to be known. MicroRNAs add to the previously established fundamental role of RNA-binding proteins known to regulate expression; however, even less is known about these protein-binding motifs. C. elegans provides an excellent model to reveal the DNA-encoded functional elements that drive these complex events in a system where the genome is completely mapped and where 3'UTRs are comparatively compact. We propose to build on our preliminary studies and use a combination of in vitro, in vivo and in silico approaches to identify most or all 3'UTRs and functional sequence elements within them. Specifically, we propose to use genome-wide RT-PCR-based strategies to identify all 3'UTRs in C. elegans; to use computational approaches, microarray analysis and deep sequencing to reveal the vast majority of 3'UTR::microRNA binding motifs and use RIP-CHIP, Yeast-3-Hybrid and computational analysis to map the 3'UTR::RNA-binding-Protein motifs. To use genome data in medicine we need to build a map of the DNA elements that could affect every gene's activity. We are proposing to build a critical part of such a map using the model animal C. elegans by identifying all the 3'UTRs (sequence elements that regulate gene expression) as well as dissect the 3'UTRs and identify sub-elements that are responsible for the 3'UTR's functions.

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