A large chromosomal inversion shapes gene expression in seaweed flies (Coelopa frigida)

A large chromosomal inversion shapes gene expression in seaweed flies (Coelopa frigida)

Abstract Inversions often underlie complex adaptive traits, but the genic targets inside them are largely unknown. Gene expression profiling provides a powerful way to link inversions with their phenotypic consequences. We examined the effects of the Cf‐Inv(1) inversion in the seaweed fly Coelopa fr...

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Auteurs principaux: Emma L. Berdan, Claire Mérot, Henrik Pavia, Kerstin Johannesson, Maren Wellenreuther, Roger K. Butlin
Format: article
Langue:EN
Publié: Wiley 2021
Sujets:
Chromosomal evolution
gene expression
genetic architecture
population genomics
Evolution
QH359-425
Accès en ligne:https://doaj.org/article/ee3c7b6f8793465c97d3bc3251c26c6e
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Résumé:Abstract Inversions often underlie complex adaptive traits, but the genic targets inside them are largely unknown. Gene expression profiling provides a powerful way to link inversions with their phenotypic consequences. We examined the effects of the Cf‐Inv(1) inversion in the seaweed fly Coelopa frigida on gene expression variation across sexes and life stages. Our analyses revealed that Cf‐Inv(1) shapes global expression patterns, most likely via linked variation, but the extent of this effect is variable, with much stronger effects in adults than larvae. Furthermore, within adults, both common as well as sex‐specific patterns were found. The vast majority of these differentially expressed genes mapped to Cf‐Inv(1). However, genes that were differentially expressed in a single context (i.e., in males, females, or larvae) were more likely to be located outside of Cf‐Inv(1). By combining our findings with genomic scans for environmentally associated SNPs, we were able to pinpoint candidate variants in the inversion that may underlie mechanistic pathways that determine phenotypes. Together the results of this study, combined with previous findings, support the notion that the polymorphic Cf‐Inv(1) inversion in this species is a major factor shaping both coding and regulatory variation resulting in highly complex adaptive effects.

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