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Literature DB >> 18505862

Overdispersion of the molecular clock varies between yeast, Drosophila and mammals.

Trevor Bedford¹, Ilan Wapinski, Daniel L Hartl.

Abstract

Although protein evolution can be approximated as a "molecular evolutionary clock," it is well known that sequence change departs from a clock-like Poisson expectation. Through studying the deviations from a molecular clock, insight can be gained into the forces shaping evolution at the level of proteins. Generally, substitution patterns that show greater variance than the Poisson expectation are said to be "overdispersed." Overdispersion of sequence change may result from temporal variation in the rate at which amino acid substitutions occur on a phylogeny. By comparing the genomes of four species of yeast, five species of Drosophila, and five species of mammals, we show that the extent of overdispersion shows a strong negative correlation with the effective population size of these organisms. Yeast proteins show very little overdispersion, while mammalian proteins show substantial overdispersion. Additionally, X-linked genes, which have reduced effective population size, have gene products that show increased overdispersion in both Drosophila and mammals. Our research suggests that mutational robustness is more pervasive in organisms with large population sizes and that robustness acts to stabilize the molecular evolutionary clock of sequence change.

Entities: Species

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Year: 2008 PMID： 18505862 PMCID： PMC2429890 DOI： 10.1534/genetics.108.089185

Source DB: PubMed Journal: Genetics ISSN： 0016-6731 Impact factor: 4.562

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