Local Changes in GC/AT Substitution Biases and in Crossover Frequencies on Drosophila Chromosomes

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Molecular Biology and Evolution 18:606-619 (2001)
© 2001 Society for Molecular Biology and Evolution

ARTICLE

Local Changes in GC/AT Substitution Biases and in Crossover Frequencies on Drosophila Chromosomes

Toshiyuki Takano-Shimizu²^,

Department of Population Genetics, National Institute of Genetics, Mishima, Shizuoka-ken, Japan

I present here evidence of remarkable local changes in GC/ATsubstitution biases and in crossover frequencies on Drosophilachromosomes. The substitution pattern at 10 loci in the telomericregion of the X chromosome was studied for four species of theDrosophila melanogaster species subgroup. Drosophila orena andDrosophila erecta are clearly the most closely related speciespair (the erecta complex) among the four species studied; however,the overall data at the 10 loci revealed a clear dichotomy inthe silent substitution patterns between the AT-biased- substitutionmelanogaster and erecta lineages and the GC-biased-substitutionyakuba and orena lineages, suggesting two or more independentchanges in GC/AT substitution biases. More importantly, theresults indicated a between- loci heterogeneity in GC/AT substitutionbias in this small region independently in the yakuba and orenalineages. Indeed, silent substitutions in the orena lineagewere significantly biased toward G and C at the consecutiveyellow, lethal of scute, and asense loci, but they were significantlybiased toward A and T at sta. The substitution bias toward Gand C was centered in different areas in yakuba (significantlybiased at EG:165H7.3, EG:171D11.2, and suppressor of sable).The similar silent substitution patterns in coding and noncodingregions, furthermore, suggested mutational biases as a causeof the substitution biases. On the other hand, previous studyreveals that Drosophila yakuba has about 20-fold higher crossoverfrequencies in the telomeric region of the X chromosome thandoes D. melanogaster; this study revealed that the total geneticmap length of the yakuba X chromosome was only about 1.5 timesas large as that of melanogaster and that the map length ofthe X-telomeric y–sta region did not differ between Drosophilayakuba and D. erecta. Taken together, the data strongly suggestedthat an approximately 20- fold reduction in the X-telomericcrossover frequencies occurred in the ancestral population ofD. melanogaster after the melanogaster-yakuba divergence butbefore the melanogaster-simulans divergence.

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