A Compound Poisson Process for Relaxing the Molecular Clock

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A Compound Poisson Process for Relaxing the Molecular Clock

John P. Huelsenbeck^a, Bret Larget^b, and David Swofford^c
^a Department of Biology, University of Rochester, Rochester, New York 14627,
^b Department of Mathematics and Computer Science, Duquesne University, Pittsburgh, Pennsylvania 15282
^c Laboratory of Molecular Systematics, Smithsonian Museum Support Center, Suitland, Maryland 20746

Corresponding author: John P. Huelsenbeck, Department of Biology, University of Rochester, Rochester, NY 14627., johnh{at}brahms.biology.rochester.edu (E-mail)

Communicating editor: S. TAVARÉ

The molecular clock hypothesis remains an important conceptualand analytical tool in evolutionary biology despite the repeatedobservation that the clock hypothesis does not perfectly explainobserved DNA sequence variation. We introduce a parametric modelthat relaxes the molecular clock by allowing rates to vary acrosslineages according to a compound Poisson process. Events ofsubstitution rate change are placed onto a phylogenetic treeaccording to a Poisson process. When an event of substitutionrate change occurs, the current rate of substitution is modifiedby a gamma-distributed random variable. Parameters of the modelcan be estimated using Bayesian inference. We use Markov chainMonte Carlo integration to evaluate the posterior probabilitydistribution because the posterior probability involves highdimensional integrals and summations. Specifically, we use theMetropolis-Hastings-Green algorithm with 11 different move typesto evaluate the posterior distribution. We demonstrate the methodby analyzing a complete mtDNA sequence data set from 23 mammals.The model presented here has several potential advantages overother models that have been proposed to relax the clock becauseit is parametric and does not assume that rates change onlyat speciation events. This model should prove useful for estimatingdivergence times when substitution rates vary across lineages.

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				J. B. Whitfield Estimating the age of the polydnavirus/braconid wasp symbiosis PNAS, May 28, 2002; 99(11): 7508 - 7513. [Abstract] [Full Text] [PDF]

				M. W. Gaunt and M. A. Miles An Insect Molecular Clock Dates the Origin of the Insects and Accords with Palaeontological and Biogeographic Landmarks Mol. Biol. Evol., May 1, 2002; 19(5): 748 - 761. [Abstract] [Full Text] [PDF]

				P. S. Soltis, D. E. Soltis, V. Savolainen, P. R. Crane, and T. G. Barraclough Rate heterogeneity among lineages of tracheophytes: Integration of molecular and fossil data and evidence for molecular living fossils PNAS, April 2, 2002; 99(7): 4430 - 4435. [Abstract] [Full Text] [PDF]

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				K. Strimmer and O. G. Pybus Exploring the Demographic History of DNA Sequences Using the Generalized Skyline Plot Mol. Biol. Evol., December 1, 2001; 18(12): 2298 - 2305. [Abstract] [Full Text] [PDF]

				M. J. Sanderson and J. A. Doyle Sources of error and confidence intervals in estimating the age of angiosperms from rbcL and 18S rDNA data Am. J. Botany, August 1, 2001; 88(8): 1499 - 1516. [Full Text]

				A. Drummond, R. Forsberg, and A. G. Rodrigo The Inference of Stepwise Changes in Substitution Rates Using Serial Sequence Samples Mol. Biol. Evol., July 1, 2001; 18(7): 1365 - 1371. [Abstract] [Full Text] [PDF]

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