MicroRNAs are differentially abundant during Aedes albopictus diapause maintenance but not diapause induction.

Diapause is a programmed dormancy that allows organisms to tolerate predictable periods of unfavourable conditions by temporarily halting development and reducing metabolism. Diapause is widespread amongst insects and is crucial for allowing organisms to coordinate their growth and reproduction with favourable environmental conditions. Although the adaptive significance of diapause is well understood, the molecular mechanisms underpinning diapause remain unresolved. We performed high-throughput sequencing to investigate the role of microRNAs (miRNAs) in the diapause of the Asian tiger mosquito, Aedes albopictus. We first investigated miRNAs in diapause induction by characterizing maternally provisioned miRNAs in mature oocytes of Ae. albopictus under diapause-inducing and diapause-averting conditions. Second, we investigated miRNAs in diapause maintenance by characterizing miRNAs in diapause and nondiapause pharate larvae. We identified 162 miRNAs, 152 previously known and 10 putatively novel. We identified no differentially abundant miRNAs in mature oocytes and seven differentially abundant miRNAs in pharate larvae. The predicted targets of differentially abundant miRNAs include genes affecting several processes related to diapause maintenance including ecdysone regulation, immune response, lipid metabolism and regulation of development. Our results suggest that Ae. albopictus does not maternally provision a unique set of miRNAs during diapause induction but miRNAs are a component of diapause maintenance in this species.