The Covariation Between TpA Deficiency, CpG Deficiency, and G+C Content of Human Isochores Is Due to a Mathematical Artifact

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Molecular Biology and Evolution 17:1620-1625 (2000)
© 2000 Society for Molecular Biology and Evolution

ARTICLE

The Covariation Between TpA Deficiency, CpG Deficiency, and G+C Content of Human Isochores Is Due to a Mathematical Artifact

Laurent Duret and Nicolas Galtier

*Laboratoire de Biométrie, Génétique et Biologie des Populations, Université Claude Bernard, Villeurbanne, France; and
${dagger}$ Laboratoire Génome, Populations, Interactions, Université Montpellier 2, Montpellier, France

CpG and TpA dinucleotides are underrepresented in the humangenome. The CpG deficiency is due to the high mutation ratefrom C to T in methylated CpG's. The TpA suppression was thoughtto reflect a counterselection against TpA's destabilizing effectin RNA. Unexpectedly, the TpA and CpG deficiencies vary accordingto the G+C contents of sequences. It has been proposed thatthe variation in CpG suppression was correlated with a particularchromatin organization in G+C-rich isochores. Here, we presentan improved model of dinucleotide evolution accounting for theoverlap between successive dinucleotides. We show that an increasedmutation rate from CpG to TpG or CpA induces both an apparentTpA deficiency and a correlation between CpG and TpA deficienciesand G+C content. Moreover, this model shows that the ratio ofobserved over expected CpG frequency underestimates the realCpG deficiency in G+C-rich sequences. The predictions of ourmodel fit well with observed frequencies in human genomic data.This study suggests that previously published selectionist interpretationsof patterns of dinucleotide frequencies should be taken withcaution. Moreover, we propose new criteria to identify unmethylatedCpG islands taking into account this bias in the measure ofCpG depletion.

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