Detoxifying enzyme complements and host use phenotypes in 160 insect species.

ABSTRACT

We use the genomes of 160 insect species to test the hypothesis that the size of detoxifying enzyme families is greater in species using more chemically diverse food resources. Phylogenetically appropriate contrasts in subsamples of the data generally support the hypothesis. We find relatively high numbers of cytochrome P450, glutathione S-transferase and carboxyl/choline esterase genes in omnivores and herbivores feeding on chemically complex tissues and relatively low numbers of these genes in specialists on relatively simple diets, including plant sap, nectar and pollen, and blood. Among Lepidoptera feeding on green plant tissue and Condylognatha feeding on sap we also find more of these genes in highly polyphagous species, many of which are major agricultural pests. These genomic signatures of food resource use are consistent with the hypothesis that some taxa are preadapted for insecticide resistance evolution.