A Maximum Likelihood Method for Analyzing Pseudogene Evolution: Implications for Silent Site Evolution in Humans and Rodents

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Molecular Biology and Evolution 19:110-117 (2002)
© 2002 Society for Molecular Biology and Evolution

A Maximum Likelihood Method for Analyzing Pseudogene Evolution: Implications for Silent Site Evolution in Humans and Rodents

Carlos D. Bustamante, Rasmus Nielsen and Daniel L. Hartl

Department of Organismic and Evolutionary Biology, Harvard University;
Department of Biometrics, Cornell University

We present a new likelihood method for detecting constrainedevolution at synonymous sites and other forms of nonneutralevolution in putative pseudogenes. The model is applicable wheneverthe DNA sequence is available from a protein-coding functionalgene, a pseudogene derived from the protein-coding gene, andan orthologous functional copy of the gene. Two nested likelihoodratio tests are developed to test the hypotheses that (1) theputative pseudogene has equal rates of silent and replacementsubstitutions; and (2) the rate of synonymous substitution inthe functional gene equals the rate of substitution in the pseudogene.The method is applied to a data set containing 74 human processed-pseudogeneloci, 25 mouse processed-pseudogene loci, and 22 rat processed-pseudogeneloci. Using the informatics resources of the Human Genome Project,we localized 67 of the human-pseudogene pairs in the genomeand estimated the GC content of a large surrounding genomicregion for each. We find that, for pseudogenes deposited inGC regions similar to those of their paralogs, the assumptionof equal rates of silent and replacement site evolution in thepseudogene is upheld; in these cases, the rate of silent siteevolution in the functional genes is $~$ 70% the rate of evolutionin the pseudogene. On the other hand, for pseudogenes locatedin genomic regions of much lower GC than their functional gene,we see a sharp increase in the rate of silent site substitutions,leading to a large rate of rejection for the pseudogene equalitylikelihood ratio test.

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