Comparison of the Complete Protein Sets of Worm and Yeast: Orthology and Divergence

Stephen A. Chervitz(National Center for Biotechnology Information), L. Aravind(National Center for Biotechnology Information), Gavin Sherlock(National Center for Biotechnology Information), Catherine A. Ball(National Center for Biotechnology Information), Eugene V. Koonin(National Center for Biotechnology Information), Selina S. Dwight(National Center for Biotechnology Information), Midori A. Harris(National Center for Biotechnology Information), Kara Dolinski(National Center for Biotechnology Information), Scott C. Mohr(National Center for Biotechnology Information), Temple F. Smith(National Center for Biotechnology Information), Shuai Weng(National Center for Biotechnology Information), J. Michael Cherry(National Center for Biotechnology Information), David Botstein(National Center for Biotechnology Information)
Science
December 11, 1998
10.1126/science.282.5396.2022
Cited by 440Open Access
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Abstract

Comparative analysis of predicted protein sequences encoded by the genomes of Caenorhabditis elegans and Saccharomyces cerevisiae suggests that most of the core biological functions are carried out by orthologous proteins (proteins of different species that can be traced back to a common ancestor) that occur in comparable numbers. The specialized processes of signal transduction and regulatory control that are unique to the multicellular worm appear to use novel proteins, many of which re-use conserved domains. Major expansion of the number of some of these domains seen in the worm may have contributed to the advent of multicellularity. The proteins conserved in yeast and worm are likely to have orthologs throughout eukaryotes; in contrast, the proteins unique to the worm may well define metazoans.

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