Stochasticity overrules the "three-times rule": genetic drift,genetic draft,and coalescence times for nuclear loci versus mitochondrial DNA |
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Authors: | Hudson Richard R Turelli Michael |
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Affiliation: | Department of Ecology and Evolution, University of Chicago, 1101 East 57th Street, Chicago, Illinois 60637 E-mail:;Section of Evolution and Ecology, University of California, Davis, California 95616 E-mail: |
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Abstract: | Abstract.— Palumbi et al. (2001) proposed a "three-times rule" that uses mitochondrial DNA (mtDNA) sequences to predict probabilities of monophyly for nuclear loci (i.e., whether the alleles within a taxon coalesce with one another before they coalesce with alleles from a sister taxon). They use neutral coalescent theory to infer these probabilities from the ratio of interspecific divergence to intraspecific variation of mtDNA. We show that the estimated probabilities have very wide confidence intervals because of the inherent stochasticity of the mtDNA coalescent process. Under neutrality, the true probability of monophyly can be much higher, or much lower, than predicted by the three-times rule. We also review recent empirical and theoretical studies that refute neutrality-based predictions concerning mtDNA variation and divergence. We conclude that the three-times rule is neither a useful test for neutral molecular evolution nor a reliable guide to genealogical species. |
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Keywords: | Coalescence theory linked selection mitochondrial DNA monophyly species identification three-times rule |
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