Abbreviated Journal Title
BMC Genomics
Keywords
Human Genome; Regulatory Elements; Multiple Alignment; Identification; Microarrays; Constraint; 1-Percent; Search; Mouse; Dna; Biotechnology & Applied Microbiology; Genetics & Heredity
Abstract
Background: Understanding sequence conservation is important for the study of sequence evolution and for the identification of functional regions of the genome. Current studies often measure sequence conservation based on every position in contiguous regions. Therefore, a large number of functional regions that contain conserved segments separated by relatively long divergent segments are ignored. Our goal in this paper is to define a new measurement of sequence conservation such that both contiguously conserved regions and discontiguously conserved regions can be detected based on this new measurement. Here and in the following, conserved regions are those regions that share similarity higher than a pre-specified similarity threshold with their homologous regions in other species. That is, conserved regions are good candidates of functional regions and may not be always functional. Moreover, conserved regions may contain long and divergent segments. Results: To identify both discontiguously and contiguously conserved regions, we proposed a new measurement of sequence conservation, which measures sequence similarity based only on the conserved segments within the regions. By defining conserved segments using the local alignment tool CHAOS, under the new measurement, we analyzed the conservation of 1642 experimentally verified human functional non-coding regions in the mouse genome. We found that the conservation in at least 11% of these functional regions could be missed by the current conservation analysis methods. We also found that 72% of the mouse homologous regions identified based on the new measurement are more similar to the human functional sequences than the aligned mouse sequences from the UCSC genome browser. We further compared BLAST and discontiguous MegaBLAST with our method. We found that our method picks up many more conserved segments than BLAST and discontiguous MegaBLAST in these regions. Conclusions: It is critical to have a new measurement of sequence conservation that is based only on the conserved segments in one region. Such a new measurement can aid the identification of better local "orthologous" regions. It will also shed light on the identification of new types of conserved functional regions in vertebrate genomes [1].
Journal Title
Bmc Genomics
Volume
10
Publication Date
1-1-2009
Document Type
Article
Language
English
First Page
13
WOS Identifier
ISSN
1471-2164
Recommended Citation
Cai, Xiaohui; Hu, Haiyan; and Li, Xiaoman, "A new measurement of sequence conservation" (2009). Faculty Bibliography 2000s. 1381.
https://stars.library.ucf.edu/facultybib2000/1381
Comments
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