by Adriana D. Briscoe, Aide Macias-Muñoz, Krzysztof M. Kozak, James R. Walters, Furong Yuan, Gabriel A. Jamie, Simon H. Martin, Kanchon K. Dasmahapatra, Laura C. Ferguson, James Mallet, Emmanuelle Jacquin-Joly, Chris D. Jiggins
Secondary plant compounds are strong deterrents of insect oviposition and feeding, but may also be attractants for specialist herbivores. These insect-plant interactions are mediated by insect gustatory receptors (
Grs) and olfactory receptors (
Ors). An analysis of the reference genome of the butterfly
Heliconius melpomene, which feeds on passion-flower vines (
Passiflora spp.), together with whole-genome sequencing within the species and across the
Heliconius phylogeny has permitted an unprecedented opportunity to study the patterns of gene duplication and copy-number variation (CNV) among these key sensory genes. We report
in silico gene predictions of 73
Gr genes in the
H. melpomene reference genome, including putative CO
2, sugar, sugar alcohol, fructose, and bitter receptors. The majority of these
Grs are the result of gene duplications since
Heliconius shared a common ancestor with the monarch butterfly or the silkmoth. Among
Grs but not
Ors, CNVs are more common within species in those gene lineages that have also duplicated over this evolutionary time-scale, suggesting ongoing rapid gene family evolution. Deep sequencing (∼1 billion reads) of transcriptomes from proboscis and labial palps, antennae, and legs of adult
H. melpomene males and females indicates that 67 of the predicted 73
Gr genes and 67 of the 70 predicted
Or genes are expressed in these three tissues. Intriguingly, we find that one-third of all
Grs show female-biased gene expression (n = 26) and nearly all of these (n = 21) are
Heliconius-specific
Grs. In fact, a significant excess of
Grs that are expressed in female legs but not male legs are the result of recent gene duplication. This difference in
Gr gene expression diversity between the sexes is accompanied by a striking sexual dimorphism in the abundance of gustatory sensilla on the forelegs of
H. melpomene, suggesting that female oviposition behaviour drives the evolution of new gustatory receptors in butterfly genomes.
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