Elevated Rates of Nonsynonymous Substitution in Island Birds

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Molecular Biology and Evolution 18:874-881 (2001)
© 2001 Society for Molecular Biology and Evolution

ARTICLE

Elevated Rates of Nonsynonymous Substitution in Island Birds

Kevin P. Johnson and Jon Seger

*Department of Biology, University of Utah, Salt Lake City, Utah;
${dagger}$ Illinois Natural History Survey, Champaign, Illinois

Slightly deleterious mutations are expected to fix at relativelyhigher rates in small populations than in large populations.Support for this prediction of the nearly-neutral theory ofmolecular evolution comes from many cases in which lineagesinferred to differ in long-term average population size havedifferent rates of nonsynonymous substitution. However, in mostof these cases, the lineages differ in many other ways as well,leaving open the possibility that some factor other than populationsize might have caused the difference in substitution rates.We compared synonymous and nonsynonymous substitutions in themitochondrial cyt b and ND2 genes of nine closely related islandand mainland lineages of ducks and doves. We assumed that islandtaxa had smaller average population sizes than those of theirmainland sister taxa for most of the time since they were established.In all nine cases, more nonsynonymous substitutions occurredon the island branch, but synonymous substitutions showed nosignificant bias. As in previous comparisons of this kind, thelineages with smaller populations might differ in other respectsthat tend to increase rates of nonsynonymous substitution, buthere such differences are expected to be slight owing to therelatively recent origins of the island taxa. An examinationof changes to apparently "preferred" and "unpreferred" synonymouscodons revealed no consistent difference between island andmainland lineages

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