Development of a Genomic Resource and Quantitative Trait Loci Mapping of Male Calling Traits in the Lesser Wax Moth, Achroia grisella.

Jennifer M Gleason,Jennifer L Hackett,Yihong Zhou,Michael D Greenfield,Michael D Greenfield,Bethany R Harris

doi:10.1371/journal.pone.0147014

Jennifer M Gleason, Jennifer L Hackett + Show 4 more

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https://doi.org/10.1371/journal.pone.0147014

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Abstract

In the study of sexual selection among insects, the Lesser Waxmoth, Achroia grisella (Lepidoptera: Pyralidae), has been one of the more intensively studied species over the past 20 years. Studies have focused on how the male calling song functions in pair formation and on the quantitative genetics of male song characters and female preference for the song. Recent QTL studies have attempted to elucidate the genetic architecture of male song and female preference traits using AFLP markers. We continued these QTL studies using SNP markers derived from an EST library that allowed us to measure both DNA sequence variation and map loci with respect to the lepidopteran genome. We report that the level of sequence variation within A. grisella is typical among other Lepidoptera that have been examined, and that comparison with the Bombyx mori genome shows that macrosynteny is conserved. Our QTL map shows that a QTL for a male song trait, pulse-pair rate, is situated on the Z chromosome, a prediction for sexually selected traits in Lepidoptera. Our findings will be useful for future studies of genetic architecture of this model species and may help identify the genetics associated with the evolution of its novel acoustic communication.

Highlights

Lepidoptera is the second largest order of insects and is very diverse in ecology, life history and behavior
Recent quantitative trait loci (QTL) studies relying on anonymous AFLP markers have identified genomic regions with major effects on features of male song, female response to and preference for male song, anti-bat defensive responses, and developmental parameters [28, 29]
The signaling parameters measured were pulse-pair rate (PR), peak amplitude (PA) and asynchrony interval (AI) length, which combined have a major influence on a male’s attractiveness to females in both parental populations [15]. Males produce their ultrasonic song while remaining stationary on the substrate and wing-fanning, which causes a pair of tymbals on the tegulae to buckle during each upstroke and downstroke

Summary

Introduction

Lepidoptera is the second largest order of insects (after Coleoptera) and is very diverse in ecology, life history and behavior (reviewed in [1]). We present a genomic analysis of sexual and developmental traits in Achroia grisella (lesser waxmoth), a pyralid moth species exhibiting highly unusual acoustic communication during pair formation. Recent quantitative trait loci (QTL) studies relying on anonymous AFLP markers have identified genomic regions with major effects on features of male song, female response to and preference for male song, anti-bat defensive responses, and developmental parameters [28, 29]. Comparison of our findings on A. grisella with the Bombyx mori (silkworm moth) genome, confirmed a high level of synteny within the order (cf [30]) This comparison indicated that at least one male signaling trait, pulse-pair rate, is linked to the Z (sex) chromosome

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