Genomics analysis of hexanoic acid exposure in Drosophila species

Author:

Drum Zachary A1ORCID,Lanno Stephen M1,Gregory Sara M1,Shimshak Serena J1,Ahamed Mukshud1,Barr Will1ORCID,Bekele Bethlehem1,Biester Alison1ORCID,Castro Colleen1ORCID,Connolly Lauren1,DelGaudio Nicole1,Humphrey William1,Karimi Helen1,Karolczak Sophie1,Lawrence Tay-Shaun1,McCracken Andrew1,Miller-Medzon Noah1,Murphy Leah1,Park Cameron1,Park Sojeong1,Qiu Chloe1,Serra Kevin1,Snyder Gigi1,Strauss Alexa1,Tang Spencer1,Vyzas Christina1,Coolon Joseph D1ORCID

Affiliation:

1. Department of Biology, Wesleyan University, Middletown, CT 06457, USA

Abstract

Abstract Drosophila sechellia is a dietary specialist endemic to the Seychelles islands that has evolved to consume the fruit of Morinda citrifolia. When ripe, the fruit of M. citrifolia contains octanoic acid and hexanoic acid, two medium-chain fatty acid volatiles that deter and are toxic to generalist insects. Drosophila sechellia has evolved resistance to these volatiles allowing it to feed almost exclusively on this host plant. The genetic basis of octanoic acid resistance has been the focus of multiple recent studies, but the mechanisms that govern hexanoic acid resistance in D. sechellia remain unknown. To understand how D. sechellia has evolved to specialize on M. citrifolia fruit and avoid the toxic effects of hexanoic acid, we exposed adult D. sechellia, D. melanogaster and D. simulans to hexanoic acid and performed RNA sequencing comparing their transcriptional responses to identify D. sechellia specific responses. Our analysis identified many more genes responding transcriptionally to hexanoic acid in the susceptible generalist species than in the specialist D. sechellia. Interrogation of the sets of differentially expressed genes showed that generalists regulated the expression of many genes involved in metabolism and detoxification whereas the specialist primarily downregulated genes involved in the innate immunity. Using these data, we have identified interesting candidate genes that may be critically important in aspects of adaptation to their food source that contains high concentrations of HA. Understanding how gene expression evolves during dietary specialization is crucial for our understanding of how ecological communities are built and how evolution shapes trophic interactions.

Funder

Wesleyan University

Department of Biology funds to JDC

National Institute of General Medical Sciences of the National Institutes of Health

Publisher

Oxford University Press (OUP)

Subject

Genetics (clinical),Genetics,Molecular Biology

Reference52 articles.

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