Recombination Drives the Evolution of GC-Content in the Human Genome

doi:10.1093/molbev/msh070

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Mol. Biol. Evol. 21(6):984-990. 2004
DOI: 10.1093/molbev/msh070
© 2004 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Recombination Drives the Evolution of GC-Content in the Human Genome

Julien Meunier and Laurent Duret

UMR 5558 CNRS, Université Lyon I, Villeurbanne, France

E-mail: meunier{at}biomserv.univ-lyon1.fr.

Unraveling the evolutionary forces responsible for variationsof neutral substitution patterns among taxa or along genomesis a major issue in the identification of functional sequencefeatures. Mammalian genomes show large-scale regional variationsof GC-content (the isochores), but the substitution processesat the origin of this structure are poorly understood. We haveanalyzed the pattern of neutral substitutions in 14.3 Mb ofprimate noncoding regions. We show that the GC-content towardwhich sequences are evolving is strongly correlated (r² = 0.61,P $<=$ 2 10^–16) with the rate of crossovers (notably in females).This demonstrates that recombination drives the evolution ofbase composition in human (probably via the process of biasedgene conversion). The present substitution patterns are verydifferent from what they had been in the past, resulting ina major modification of the isochore structure of our genome.This non-equilibrium situation suggests that changes of recombinationrates occur relatively frequently during evolution, possiblyas a consequence of karyotype rearrangements. These resultshave important implications for understanding the spatial andtemporal variations of substitution processes in a broad rangeof sexual organisms, and for detecting the hallmarks of naturalselection in DNA sequences.

Key Words: isochore • recombination • biased gene conversion • GC-content • human genome

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