The Elevated GC Content at Exonic Third Sites Is Not Evidence Against Neutralist Models of Isochore Evolution

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Molecular Biology and Evolution 18:757-762 (2001)
© 2001 Society for Molecular Biology and Evolution

ARTICLE

The Elevated GC Content at Exonic Third Sites Is Not Evidence Against Neutralist Models of Isochore Evolution

Laurent Duret and Laurence D. Hurst^,

Pole BioInformatique Lyonnais, Laboratoire BBE-UMR Centre National de la Recherche Scientifique 5558, Universite Claude Bernard–Lyon 1, Villeurbanne, France; and
Department of Biology and Biochemistry, University of Bath, Claverton Down, Bath, England

The human genome is divided into isochores, large stretches(>>300 kb) of genomic DNA with more or less consistent GC content.Mutational/neutralist and selectionist models have been putforward to explain their existence. A major criticism of themutational models is that they cannot account for the higherGC content at fourfold-redundant silent sites within exons (GC4)than in flanking introns (GCi). Indeed, it has been assertedthat it is hard to envisage a mutational bias explanation, asit is difficult to see how repair enzymes might act differentlyin exons and their flanking introns. However, this rejection,we note, ignores the effects of transposable elements (TEs),which are a major component of introns and tend to cause themto have a GC content different from (usually lower than) thatdictated by point mutational processes alone. As TEs tend notto insert at the extremities of introns, this model predictsthat GC content at the extremities of introns should be morelike that at GC4 than are the intronic interiors. This we showto be true. The model also correctly predicts that small intronsshould have a composition more like that at GC4 than large introns.We conclude that the logic of the previous rejection of neutralistmodels is unsafe.

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