Estimating Divergence Times in the Presence of an Overdispersed Molecular Clock

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Molecular Biology and Evolution 17:1647-1660 (2000)
© 2000 Society for Molecular Biology and Evolution

ARTICLE

Estimating Divergence Times in the Presence of an Overdispersed Molecular Clock

David J. Cutler¹^,^,

Center for Population Biology, University of California at Davis

Molecular loci that fail relative-rate tests are said to be"overdispersed." Traditional molecular-clock approaches to estimatingdivergence times do not take this into account. In this study,a method was developed to estimate divergence times using locithat may be overdispersed. The approach was to replace the traditionalPoisson process assumption with a more general stationary processassumption. A probability model was developed, and an accompanyingcomputer program was written to find maximum-likelihood estimatesof divergence times under both the Poisson process and the stationaryprocess assumptions. In simulation, it was shown that confidenceintervals under the traditional Poisson assumptions often vastlyunderestimate the true confidence limits for overdispersed loci.Both models were applied to two data sets: one from land plants,the other from the higher metazoans. In both cases, the traditionalPoisson process model could be rejected with high confidence.Maximum-likelihood analysis of the metazoan data set under themore general stationary process suggested that their radiationoccurred well over a billion years ago, but confidence intervalswere extremely wide. It was also shown that a model consistentwith a Cambrian (or nearly Cambrian) origination of the animalphyla, although significantly less likely than a much olderdivergence, fitted the data well. It is argued that withoutan a priori understanding of the variance in the time betweensubstitutions, molecular data sets may be incapable of everestablishing the age of the metazoan radiation.

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