Abstract

Many insect species use photoperiod as a cue for induction of seasonal responses, including seasonal polyphenism. Although most aphid species viviparously produce parthenogenetic and sexual morphs under long and short days, respectively, a seasonal timer suppresses the sexual morph production over several successive generations during a few months following hatching of a sexually produced diapause egg. To reveal the relative influences of photoperiod and the seasonal timer on the reproductive polyphenism at the gene expression level, we performed RNA sequencing-based transcriptome analyses in the pea aphid, Acyrthosiphon pisum (Hemiptera: Aphididae). Under short days, aphids with an expired seasonal timer showed a higher expression level in hundreds of genes than those with an operative seasonal timer. In contrast, aphids with an operative seasonal timer did not show upregulation in most of these genes. Functional annotations based on gene ontology showed that histone modifications and small non-coding RNA pathways were enriched in aphids with an expired seasonal timer under short-day conditions, suggesting that these epigenetic regulations on gene expression might be involved in a mechanism of maternal switching from the parthenogenetic to sexual morph production.

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