Abstract
Phenotypic variation within a species is often structured geographically in clines. In Drosophila americana, a longitudinal cline for body color exists within North America that appears to be due to local adaptation. The tan and ebony genes have been hypothesized to contribute to this cline, with alleles of both genes that lighten body color found in D. americana. These alleles are similar in sequence and function to the allele fixed in D. americana’s more lightly pigmented sister species, Drosophila novamexicana. To test this hypothesis, we examined the frequency and geographic distribution of D. novamexicana-like alleles of tan and ebony in D. americana. Among alleles from over 100 strains of D. americana isolated from 21 geographic locations, we failed to identify additional alleles of tan or ebony with as much sequence similarity to D. novamexicana as the alleles previously described. However, using genetic analysis of 51 D. americana strains derived from 20 geographic locations, we identified one new allele of ebony and one new allele of tan segregating in D. americana that are functionally equivalent to the D. novamexicana allele. An additional 5 alleles of tan also showed marginal evidence of functional similarity. Given the rarity of these alleles, however, we conclude that they are unlikely to be driving the pigmentation cline. Indeed, phenotypic distributions of the 51 backcross populations analyzed indicate a more complex genetic architecture, with diversity in the number and effects of loci altering pigmentation observed both within and among populations of D. americana. This genetic heterogeneity poses a challenge to association studies and genomic scans for clinal variation, but might be common in natural populations.
Competing Interest Statement
The authors have declared no competing interest.