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Title: SYSTEMATIC IDENTIFICATION OF REGULATORY ELEMENTS IN CATTLE.

Author
item Liu, Ge - George
item YANG, JIANQI - CASE WESTERN
item MATUKUMALLI, LAKSHMI - GEORGE MASON UNIVERSITY
item Sonstegard, Tad
item Van Tassell, Curtis - Curt
item HANSON, RICHARD - CASE WESTERN

Submitted to: International Conference on Animal Genetics
Publication Type: Abstract Only
Publication Acceptance Date: 8/20/2006
Publication Date: 8/20/2006
Citation: Liu, G., Yang, J., Matukumalli, L.K., Sonstegard, T.S., Van Tassell, C.P., Hanson, R.W. 2006. Systematic identification of regulatory elements in cattle [abstract]. International Conference on Animal Genetics. Aug 2006, Porto Seguro, Brazil, pp C448.

Interpretive Summary:

Technical Abstract: Comparative genomics provides a powerful approach for the systematic discovery of functional elements, by identifying highly conserved sequences due to evolutionary constraints. Besides protein-coding, these functional elements are likely to function as regulatory elements, RNA genes and structural motifs. However, it has been difficult to recognize these short degenerated functional elements in a systematic fashion. Most of these elements remain unidentified, such as cis DNA elements in promoters acting as transcription factor binding sites (TFBS) and microRNA target sites in 3’ UTR. We designed a systematic approach combining position-weight matrixes and phylogenetic footprinting to systematically identify functional elements in bovine promoters and 3’ UTRs by cross-species comparison of several mammals. To verify our approach, we analyzed some well-studied promoters and the initial analysis yielded most previously known TFBS and several new candidate sites. We began to test these new sites by experimental validation and the preliminary results are promising. We are in the process of evaluating and customizing existing matrixes and algorithms in order to apply them to individual pathways and the whole genome. This study will provide a comprehensive catalog of functional elements in bovine promoters and 3’ UTRs and may provide the first insights into the fundamental understanding of genome-wide regulation and variation in the bovine gene expression.