Vanishing GC-Rich Isochores in Mammalian Genomes

Vanishing GC-Rich Isochores in Mammalian Genomes

Laurent Duret^a, Marie Semon^a, Gwenaël Piganeau^b, Dominique Mouchiroud^a, and Nicolas Galtier^c
^a Laboratoire de Biométrie et Biologie Evolutive, UMR CNRS 5558 Université Claude Bernard Lyon 1, 69622 Villeurbanne Cedex, France,
^b Centre for the Study of Evolution, School of Biological Sciences, Falmer, Brighton BN1 9QG, United Kingdom
^c Laboratoire Génome, Populations, Interactions, UMR CNRS 5000 Université Montpellier 2, 34095 Montpellier Cedex 5, France

Corresponding author: Laurent Duret, UMR CNRS 5558 Université Claude Bernard Lyon 1, 16 rue Raphaël Dubois, 69622 Villeurbanne Cedex, France., duret{at}biomserv.univ-lyon1.fr (E-mail)

Communicating editor: P. D. KEIGHTLEY

To understand the origin and evolution of isochores—thepeculiar spatial distribution of GC content within mammaliangenomes—we analyzed the synonymous substitution patternin coding sequences from closely related species in differentmammalian orders. In primate and cetartiodactyls, GC-rich genesare undergoing a large excess of GC $->$ AT substitutions over AT $->$ GC substitutions: GC-rich isochores are slowly disappearingfrom the genome of these two mammalian orders. In rodents, ouranalyses suggest both a decrease in GC content of GC-rich isochoresand an increase in GC-poor isochores, but more data will benecessary to assess the significance of this pattern. Theseobservations question the conclusions of previous works thatassumed that base composition was at equilibrium. Analysis ofallele frequency in human polymorphism data, however, confirmedthat in the GC-rich parts of the genome, GC alleles have a higherprobability of fixation than AT alleles. This fixation biasappears not strong enough to overcome the large excess of GC $->$ AT mutations. Thus, whatever the evolutionary force (neutralor selective) at the origin of GC-rich isochores, this forceis no longer effective in mammals. We propose a model basedon the biased gene conversion hypothesis that accounts for theorigin of GC-rich isochores in the ancestral amniote genomeand for their decline in present-day mammals.

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				E. S. Balakirev, V. R. Chechetkin, V. V. Lobzin, and F. J. Ayala Entropy and GC Content in the {beta}-esterase Gene Cluster of the Drosophila melanogaster Subgroup Mol. Biol. Evol., October 1, 2005; 22(10): 2063 - 2072. [Abstract] [Full Text] [PDF]

				M. T. Webster, N. G. C. Smith, L. Hultin-Rosenberg, P. F. Arndt, and H. Ellegren Male-Driven Biased Gene Conversion Governs the Evolution of Base Composition in Human Alu Repeats Mol. Biol. Evol., June 1, 2005; 22(6): 1468 - 1474. [Abstract] [Full Text] [PDF]

				I. Ebersberger and M. Meyer A Genomic Region Evolving Toward Different GC Contents in Humans and Chimpanzees Indicates a Recent and Regionally Limited Shift in the Mutation Pattern Mol. Biol. Evol., May 1, 2005; 22(5): 1240 - 1245. [Abstract] [Full Text] [PDF]

				N. Cohen, T. Dagan, L. Stone, and D. Graur GC Composition of the Human Genome: In Search of Isochores Mol. Biol. Evol., May 1, 2005; 22(5): 1260 - 1272. [Abstract] [Full Text] [PDF]

				A. E. Vinogradov Noncoding DNA, isochores and gene expression: nucleosome formation potential Nucleic Acids Res., January 26, 2005; 33(2): 559 - 563. [Abstract] [Full Text] [PDF]

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