Comparative genomic analysis as a tool for biological discovery

doi:10.1113/jphysiol.2003.050948

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Comparative genomic analysis as a tool for biological discovery

Marcelo A. Nobrega¹ and Len A. Pennacchio¹²

^¹ Genome Sciences Department, Lawrence Berkeley National Laboratory, One Cyclotron Road, Berkeley, CA 94720, USA^² US Department of Energy Joint Genome Institute, 2800 Mitchell Drive, Walnut Creek, CA 94598, USA

The recent completion of the human genome sequence has enabledthe identification of a large fraction of our gene catalogueand their physical chromosomal position. However, current effortslag at defining the cis-regulatory sequences that control thespatial and temporal patterns of each gene's expression. Thistask remains difficult due to our lack of knowledge of the vocabularycontrolling gene regulation and the vast genomic search space,with greater than 95% of our genome being noncoding. Recentcomparative genomic-based strategies are beginning to aid inthe identification of functional sequences based on their highlevels of evolutionary conservation. This has proven successfulfor comparisons between closely related species such as human–primateor human–mouse, but also holds true for distant evolutionarycomparisons, such as human–fish or human–bird. Inthis review we provide support for the utility of cross-speciessequence comparisons by illustrating several applications ofthis strategy, including the identification of new genes andfunctional non-coding sequences. We also discuss emerging conceptsas this field matures, such as how to properly select whichspecies for comparison, which may differ significantly betweenindependent studies.

(Received 8 July 2003; accepted after revision 9 September 2003; first published online 12 September 2003)
Corresponding author L. A. Pennacchio: Genome Sciences Department, Lawrence Berkeley National Laboratory, One Cyclotron Road, Berkely, CA 94720, USA. Email: lapennacchio{at}lbl.gov

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