https://doi.org/10.1371/journal.pone.0057033

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College of Arts and Sciences Publications and Scholarship

Abstract

Recent studies indicate that relatively few genomic regions are repeatedly involved in the evolution of Heliconius butterfly wing patterns. Although this work demonstrates a number of cases where homologous loci underlie both convergent and divergent wing pattern change among different Heliconius species, it is still unclear exactly how many loci underlie pattern variation across the genus. To address this question for Heliconius erato, we created fifteen independent crosses utilizing the four most distinct color pattern races and analyzed color pattern segregation across a total of 1271 F2 and backcross offspring. Additionally, we used the most variable brood, an F2 cross between H. himera and the east Ecuadorian H. erato notabilis, to perform a quantitative genetic analysis of color pattern variation and produce a detailed map of the loci likely involved in the H. erato color pattern radiation. Using AFLP and gene based markers, we show that fewer major genes than previously envisioned control the color pattern variation in H. erato. We describe for the first time the genetic architecture of H. erato wing color pattern by assessing quantitative variation in addition to traditional linkage mapping. In particular, our data suggest three genomic intervals modulate the bulk of the observed variation in color. Furthermore, we also identify several modifier loci of moderate effect size that contribute to the quantitative wing pattern variation. Our results are consistent with the two-step model for the evolution of mimetic wing patterns in Heliconius and support a growing body of empirical data demonstrating the importance of major effect loci in adaptive change.

Publisher

Public Library of Science

Publication Date

3-22-2013

College

College of Arts and Sciences

Department

Department of Biological Sciences

Keywords

Alleles, Animals, Butterflies, Butterflies: genetics, Butterflies: metabolism, Chromosome Mapping, Insect Proteins, Insect Proteins: genetics, Insect Proteins: metabolism, Pigmentation, Pigmentation: genetics, Pigmentation: physiology, Quantitative Trait Loci, Wing, Wing: metabolism

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