Temperature is an important factor influencing insect distribution. In the tropical and subtropical regions, insects always suffer the extreme temperature. Therefore, appropriate molecular response to temperature change is crucial for their survival. To understand how Diaphorina citri responds to high temperature at the molecular level, we conducted a comparative analysis of the transcriptomes of D. citri under room temperature and 40 °C heat shock treatment. The RNA sequencing analysis identified a total of 451 differentially expressed genes upon heat stress, including 167 down-regulated genes and 284 up-regulated genes. Thermal stress mainly significantly induced the transcription of molecular chaperone, protein biosynthesis and oxidation resistance, including members of the heat shock protein families, ATPases, and detoxifying enzymes. This study provides a preliminary insight into the transcriptional response of D. citri to heat stress and provides a foundation for the future functional validation of genes involved in thermotolerance in this important insect pest in tropical and subtropical regions.
Keywords: Diaphorina citri; RNA-Seq; Thermal stress; Vector.
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