The Rate of Compensatory Evolution

INVESTIGATIONS

The Rate of Compensatory Evolution

W. Stephan
Department of Zoology, University of Maryland, College Park, Maryland 20742-4415

A two-locus model is presented to analyze the evolution of compensatory mutations occurring in stems of RNA secondary structures. Single mutations are assumed to be deleterious but harmless (neutral) in appropriate combinations. In proceeding under mutation pressure, natural selection and genetic drift from one fitness peak to another one, a population must therefore pass through a valley of intermediate deleterious states of individual fitness. The expected time for this transition is calculated using diffusion theory. The rate of compensatory evolution, k(c), is then defined as the inverse of the expected transition time. When selection against deleterious single mutations is strong, k(c) depends on the recombination fraction r between the two loci. Recombination generally reduces the rate of compensatory evolution because it breaks up favorable combinations of double mutants. For complete linkage, k(c) is given by the rate at which favorable combinations of double mutants are produced by compensatory mutation. For r>0, k(c) decreases exponentially with r. In contrast, k(c) becomes independent of r for weak selection. We discuss the dynamics of evolutionary substitutions of compensatory mutants in relation to WRIGHT's shifting balance theory of evolution and use our results to analyze the substitution process in helices of mRNA secondary structures.

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				J. L. Knies, K. K. Dang, T. J. Vision, N. G. Hoffman, R. Swanstrom, and C. L. Burch Compensatory Evolution in RNA Secondary Structures Increases Substitution Rate Variation among Sites Mol. Biol. Evol., August 1, 2008; 25(8): 1778 - 1787. [Abstract] [Full Text] [PDF]

				K. R. Takahasi Evolution of Coadaptation in a Subdivided Population Genetics, May 1, 2007; 176(1): 501 - 511. [Abstract] [Full Text] [PDF]

				V. Gowri-Shankar and M. Rattray On the Correlation Between Composition and Site-Specific Evolutionary Rate: Implications for Phylogenetic Inference Mol. Biol. Evol., February 1, 2006; 23(2): 352 - 364. [Abstract] [Full Text] [PDF]

				R. Sanjuan, J. M. Cuevas, A. Moya, and S. F. Elena Epistasis and the Adaptability of an RNA Virus Genetics, July 1, 2005; 170(3): 1001 - 1008. [Abstract] [Full Text] [PDF]

				S. J. McTaggart and T. J. Crease Selection on the Structural Stability of a Ribosomal RNA Expansion Segment in Daphnia obtusa Mol. Biol. Evol., May 1, 2005; 22(5): 1309 - 1319. [Abstract] [Full Text] [PDF]

				R. J. Kulathinal, B. R. Bettencourt, and D. L. Hartl Compensated Deleterious Mutations in Insect Genomes Science, November 26, 2004; 306(5701): 1553 - 1554. [Abstract] [Full Text] [PDF]

				E. S. Balakirev and F. J. Ayala Nucleotide Variation in the tinman and bagpipe Homeobox Genes of Drosophila melanogaster Genetics, April 1, 2004; 166(4): 1845 - 1856. [Abstract] [Full Text] [PDF]

				Y. Iwasa, F. Michor, and M. A. Nowak Stochastic Tunnels in Evolutionary Dynamics Genetics, March 1, 2004; 166(3): 1571 - 1579. [Abstract] [Full Text] [PDF]

				J. F. Baines, J. Parsch, and W. Stephan Pleiotropic Effect of Disrupting a Conserved Sequence Involved in a Long-Range Compensatory Interaction in the Drosophila Adh Gene Genetics, January 1, 2004; 166(1): 237 - 242. [Abstract] [Full Text] [PDF]

				T. F. McCutchan, D. Rathore, and J. Li Compensatory Evolution in the Human Malaria Parasite Plasmodium ovale Genetics, January 1, 2004; 166(1): 637 - 640. [Abstract] [Full Text] [PDF]

				Y. Chen and W. Stephan Compensatory evolution of a precursor messenger RNA secondary structure in the Drosophila melanogaster Adh gene PNAS, September 30, 2003; 100(20): 11499 - 11504. [Abstract] [Full Text] [PDF]

				L. M. Matzkin and W. F. Eanes Sequence Variation of Alcohol Dehydrogenase (Adh) Paralogs in Cactophilic Drosophila Genetics, January 1, 2003; 163(1): 181 - 194. [Abstract] [Full Text] [PDF]

				H. Innan and W. Stephan Selection Intensity Against Deleterious Mutations in RNA Secondary Structures and Rate of Compensatory Nucleotide Substitutions Genetics, September 1, 2001; 159(1): 389 - 399. [Abstract] [Full Text] [PDF]

				N. J. Savill, D. C. Hoyle, and P. G. Higgs RNA Sequence Evolution With Secondary Structure Constraints: Comparison of Substitution Rate Models Using Maximum-Likelihood Methods Genetics, January 1, 2001; 157(1): 399 - 411. [Abstract] [Full Text]

				J. Parsch, J. M. Braverman, and W. Stephan Comparative Sequence Analysis and Patterns of Covariation in RNA Secondary Structures Genetics, February 1, 2000; 154(2): 909 - 921. [Abstract] [Full Text]

				O. Tenaillon, B. Toupance, H. Le Nagard, F. Taddei, and B. Godelle Mutators, Population Size, Adaptive Landscape and the Adaptation of Asexual Populations of Bacteria Genetics, June 1, 1999; 152(2): 485 - 493. [Abstract] [Full Text]

				P. C. Phillips The Language of Gene Interaction Genetics, July 1, 1998; 149(3): 1167 - 1171. [Full Text] [PDF]

				E. R. M. Tillier and R. A. Collins High Apparent Rate of Simultaneous Compensatory Base-Pair Substitutions in Ribosomal RNA Genetics, April 1, 1998; 148(4): 1993 - 2002. [Abstract] [Full Text] [PDF]

				J. Parsch, S. Tanda, and W. Stephan Site-directed mutations reveal long-range compensatory interactions in the Adh gene of Drosophila melanogaster PNAS, February 4, 1997; 94(3): 928 - 933. [Abstract] [Full Text] [PDF]