Abstract
We have investigated nucleotide polymorphism in the Est-6 gene region in four samples of Drosophila melanogaster derived from natural populations of East Africa (Zimbabwe), Europe (Spain), North America (California), and South America (Venezuela). There are two divergent sequence types in the North and South American samples, which are not perfectly (North America) or not at all (South America) associated with the Est-6 allozyme variation. Less pronounced or no sequence dimorphism occurs in the European and African samples, respectively. The level of nucleotide diversity is highest in the African sample, lower (and similar to each other) in the samples from Europe and North America, and lowest in the sample from South America. The extent of linkage disequilibrium is low in Africa (1.23% significant associations), but much higher in non-African populations (22.59, 21.45, and 37.68% in Europe, North America, and South America, respectively). Tests of neutrality with recombination are significant in non-African samples but not significant in the African sample. We propose that demographic history (bottleneck and admixture of genetically different populations) is the major factor shaping the nucleotide patterns in the Est-6 gene region. However, positive selection modifies the pattern: balanced selection creates elevated levels of nucleotide variation around functionally important (target) polymorphic sites (RsaI-/RsaI+ in the promoter region and F/S in the coding region) in both African and non-African samples; and directional selection, acting during the geographic expansion phase of D. melanogaster, creates an excess of very similar sequences (RsaI- and S allelic lineages, in the promoter and coding regions, respectively) in the non-African samples.
Highlights
The esterase 6 (Est-6) gene is on the left arm of chromosome 3 of Drosophila melanogaster, at cytogenetic map position
We have investigated nucleotide polymorphism in the Est-6 gene region in four samples of Drosophila melanogaster derived from natural populations of East Africa (Zimbabwe), Europe (Spain), North America (California), and South America (Venezuela)
We suggested that the Est-6 nucleotide polymorphism is shaped by a combination of directional and balancing selection acting on the promoter and coding region polymorphisms and by interactions between the two regions due to different degrees of hitchhiking (Balakirev et al 2002)
Summary
The Est-6 gene is on the left arm of chromosome 3 of Drosophila melanogaster, at cytogenetic map position. Cooke and Oakeshott (1989) sequenced the complete coding region of Est-6 in 13 D. melanogaster lines in an Australian population (chosen so as to include all allozyme variants known in the population) They suggested that the main Fast and Slow allozymes differ by two amino acids (Asn/Asp at position 237 and Thr/ Ala at position 247; but see Hasson and Eanes 1996 and Balakirev et al 1999) and considered these two amino acid replacements as the most likely targets for selection underlying the previously detected latitudinal clines (Oakeshott et al 1981). Balakirev et al (1999) sequenced 15 alleles of the Est-6 coding region from a Californian population and found two highly differentiated haplotypes, one encompassing the Fast alleles and the other consisting of Slow alleles They detected a distinct peak of increased variation in the region surrounding the replacement site responsible for the EST-6 Fast/Slow allozyme polymorphism and suggested that balancing selection might be involved in the polymorphism. We suggested that the Est-6 nucleotide polymorphism is shaped by a combination of directional and balancing selection acting on the promoter and coding region polymorphisms and by interactions between the two regions due to different degrees of hitchhiking (Balakirev et al 2002)
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