Simple stochastic birth and death models of genome evolution: was there enough time for us to evolve?

doi:10.1093/bioinformatics/btg351

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Bioinformatics Vol. 19 no. 15 2003
pages 1889-1900
© 2003 Oxford University Press

Simple stochastic birth and death models of genome evolution: was there enough time for us to evolve?

Georgy P. Karev , Yuri I. Wolf and Eugene V. Koonin ^*

National Center for Biotechnology Information, National Library of Medicine, National Institutes of Health, Bethesda, MD 20894, USA

Received on May 1, 2003 ; revised on July 15, 2003 ; accepted on July 15, 2003

Motivation: The distributions of many genome-associated quantities,including the membership of paralogous gene families can beapproximated with power laws. We are interested in developingmathematical models of genome evolution that adequately accountfor the shape of these distributions and describe the evolutionarydynamics of their formation.

Results: We show that simple stochastic models of genome evolutionlead to power-law asymptotics of protein domain family sizedistribution. These models, called Birth, Death and InnovationModels (BDIM), represent a special class of balanced birth-and-deathprocesses, in which domain duplication and deletion rates areasymptotically equal up to the second order. The simplest, linearBDIM shows an excellent fit to the observed distributions ofdomain family size in diverse prokaryotic and eukaryotic genomes.However, the stochastic version of the linear BDIM exploredhere predicts that the actual size of large paralogous familiesis reached on an unrealistically long timescale. We show thatintroduction of non-linearity, which might be interpreted asinteraction of a particular order between individual familymembers, allows the model to achieve genome evolution ratesthat are much better compatible with the current estimates ofthe rates of individual duplication/loss events.

Contact: koonin{at}ncbi.nlm.nih.gov

^* To whom correspondence should be addressed.

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