Mammalian Housekeeping Genes Evolve More Slowly than Tissue-Specific Genes

doi:10.1093/molbev/msh010

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Mol. Biol. Evol. 21(2):236-239. 2004
DOI: 10.1093/molbev/msh010
© 2004 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Mammalian Housekeeping Genes Evolve More Slowly than Tissue-Specific Genes

Liqing Zhang and Wen-Hsiung Li

Department of Ecology and Evolution, University of Chicago

E-mail: whli{at}uchicago.edu.

Do housekeeping genes, which are turned on most of the timein almost every tissue, evolve more slowly than genes that areturned on only at specific developmental times or tissues? Recentlarge-scale gene expression studies enable us to have a betterdefinition of housekeeping genes and to address the above questionin detail. In this study, we examined 1,581 human-mouse orthologousgene pairs for their patterns of sequence evolution, contrastinghousekeeping genes with tissue-specific genes. Our results showthat, in comparison to tissue-specific genes, housekeeping geneson average evolve more slowly and are under stronger selectiveconstraints as reflected by significantly smaller values ofKa/Ks. Besides stronger purifying selection, we explored severalother factors that can possibly slow down nonsynonymous ratesin housekeeping genes. Although mutational bias might slightlyslow the nonsynonymous rates in housekeeping genes, it is unlikelyto be the major cause of the rate difference between the twotypes of genes. The codon usage pattern of housekeeping genesdoes not seem to differ from that of tissue-specific genes.Moreover, contrary to the old textbook concept, we found that $~$ 74% of the housekeeping genes in our study belong to multigenefamilies, not significantly different from that of the tissue-specificgenes ( $~$ 70%). Therefore, the stronger selective constraints onhousekeeping genes are not due to a lower degree of geneticredundancy.

Key Words: synonymous rates • nonsynonymous rates • mutational bias • selective constraint • tissue-specific • and genetic redundancy

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