Rate Variation of DNA Sequence Evolution in the Drosophila Lineages

Rate Variation of DNA Sequence Evolution in the Drosophila Lineages

Toshiyuki S. Takano^a
^a Department of Population Genetics, National Institute of Genetics, Mishima, Shizuoka-ken 411-8540, Japan

Corresponding author: Toshiyuki S. Takano, Department of Population Genetics, National Institute of Genetics, Mishima Shizuoka-ken 411-8540, Japan, totakano{at}lab.nig.ac.jp (E-mail).

Communicating editor: A. G. CLARK

Rate constancy of DNA sequence evolution was examined for threespecies of Drosophila, using two samples: the published sequencesof eight genes from regions of the normal recombination ratesand new data of the four AS-C (ac, sc, l'sc and ase) and cigenes. The AS-C and ci genes were chosen because these genesare located in the regions of very reduced recombination inDrosophila melanogaster and their locations remain unchangedthroughout the entire lineages involved, yielding less effectof ancestral polymorphism in the study of rate constancy. Thesynonymous substitution pattern of the three lineages was foundto be erratic in both samples. The dispersion index for replacementsubstitution was relatively high for the per, G6pd and ac genes.A significant heterogeneity was found in the number of synonymoussubstitutions in the three lineages between the two samplesof genes with different recombination rates. This is partlydue to a lack of the lineage effect in the D. melanogaster andDrosophila simulans lineages in the AS-C and ci genes in contrastto AKASHI's observation of genes in regions of normal recombination.The higher codon bias in Drosophila yakuba as compared withD. melanogaster and D. simulans was observed in the four AS-Cgenes, which suggests change(s) in action of natural selectioninvolved in codon usage on these genes. Fluctuating selectionintensity may also be responsible for the observed locus-lineageinteraction effects in synonymous substitution.

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