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Evolution. 2014 Dec;68(12):3395-409. doi: 10.1111/evo.12546. Epub 2014 Nov 20.

A highly pleiotropic amino acid polymorphism in the Drosophila insulin receptor contributes to life-history adaptation.

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Department of Biology, University of Pennsylvania, Philadelphia, Pennsylvania, 19104; Current Address: Department of Biology, Center for Genomics & Systems Biology, New York University, New York, New York, 10003.


Finding the specific nucleotides that underlie adaptive variation is a major goal in evolutionary biology, but polygenic traits pose a challenge because the complex genotype-phenotype relationship can obscure the effects of individual alleles. However, natural selection working in large wild populations can shift allele frequencies and indicate functional regions of the genome. Previously, we showed that the two most common alleles of a complex amino acid insertion-deletion polymorphism in the Drosophila insulin receptor show independent, parallel clines in frequency across the North American and Australian continents. Here, we report that the cline is stable over at least a five-year period and that the polymorphism also demonstrates temporal shifts in allele frequency concurrent with seasonal change. We tested the alleles for effects on levels of insulin signaling, fecundity, development time, body size, stress tolerance, and life span. We find that the alleles are associated with predictable differences in these traits, consistent with patterns of Drosophila life-history variation across geography that likely reflect adaptation to the heterogeneous climatic environment. These results implicate insulin signaling as a major mediator of life-history adaptation in Drosophila, and suggest that life-history trade-offs can be explained by extensive pleiotropy at a single locus.


Adaptation; InR; cline; pleiotropy; seasonality

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