The Genetic Architecture of Venom Resistance: A Novel Approach to Target Identification and Coevolutionary Discovery
Micaiah J Ward, Schyler A Ellsworth, Elizabeth G King, Enoch Ng’oma, Gunnar S Nystrom, Kylie C Lawrence, Lauren Maquet-Diafouka, Alex Oliver, Mark J Margres, Christopher L Parkinson, Kimberly A Hughes, Darin R Rokyta

TL;DR
This study explores how prey species evolve resistance to centipede venom, revealing complex genetic patterns and differences between sexes.
Contribution
A novel experimental approach identifies venom resistance genes in Drosophila and reveals sex-specific genetic differences.
Findings
12 consensus genes were identified as associated with venom resistance in Drosophila.
Venom resistance involves hundreds to thousands of genes despite the simplicity of the venom.
Resistance evolution showed no fitness trade-offs and differed significantly between sexes.
Abstract
All species evolve under selective pressures that emerge from their interactions, often antagonistic, with other species. Phenotypes mediating species interactions manifest as the combined products of the genomes of interacting species; understanding the evolutionary processes acting in one lineage therefore cannot be attained without bridging the genomes of interacting species. Venoms have arisen independently more than 100 times in animals and serve diverse roles in species interactions, including predation and defense. Each venom is evolutionarily entwined with reciprocal phenotypes, such as venom resistance, in often diverse recipient species. Despite extensive work on venoms, the full genetic basis for resistance to whole venoms is largely unknown. Using the venom of the Florida blue centipede (Scolopendra viridis) comprised of 35 toxins and Drosophila melanogaster as model prey,…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsVenomous Animal Envenomation and Studies · Marine Invertebrate Physiology and Ecology · Nicotinic Acetylcholine Receptors Study
