Large Number of Replacement Polymorphisms in Rapidly Evolving Genes of Drosophila: Implications for Genome-Wide Surveys of DNA Polymorphism

Large Number of Replacement Polymorphisms in Rapidly Evolving Genes of Drosophila: Implications for Genome-Wide Surveys of DNA Polymorphism

Karl J. Schmid^a,c, Loredana Nigro^b, Charles F. Aquadro^c, and Diethard Tautz^a
^a Zoologisches Institut, Universität München, 80333 München, Germany,
^b Dipartimento di Biologia, University of Padua, 35122 Padua, Italy
^c Department of Molecular Biology and Genetics, Cornell University, Ithaca, New York 14853

Corresponding author: Karl J. Schmid, Section of Genetics and Development, 403 Biotechnology Bldg., Cornell University, Ithaca, NY 14853-2703., kjs21{at}cornell.edu (E-mail)

Communicating editor: A. G. CLARK

We present a survey of nucleotide polymorphism of three novel,rapidly evolving genes in populations of Drosophila melanogasterand D. simulans. Levels of silent polymorphism are comparableto other loci, but the number of replacement polymorphisms ishigher than that in most other genes surveyed in D. melanogasterand D. simulans. Tests of neutrality fail to reject neutralevolution with one exception. This concerns a gene located ina region of high recombination rate in D. simulans and in aregion of low recombination rate in D. melanogaster, due toan inversion. In the latter case it shows a very low numberof polymorphisms, presumably due to selective sweeps in theregion. Patterns of nucleotide polymorphism suggest that mostsubstitutions are neutral or nearly neutral and that weak (positiveand purifying) selection plays a significant role in the evolutionof these genes. At all three loci, purifying selection of slightlydeleterious replacement mutations appears to be more efficientin D. simulans than in D. melanogaster, presumably due to differenteffective population sizes. Our analysis suggests that currentknowledge about genome-wide patterns of nucleotide polymorphismis far from complete with respect to the types and range ofnucleotide substitutions and that further analysis of differencesbetween local populations will be required to understand theforces more completely. We note that rapidly diverging and nearlyneutrally evolving genes cannot be expected only in the genomeof Drosophila, but are likely to occur in large numbers alsoin other organisms and that their function and evolution arelittle understood so far.

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