Exploring the Heat-Responsive miRNAs and their Target Gene Regulation in Ruditapes philippinarum Under Acute Heat Stress.

This study aimed to investigate the inherent molecular regulatory mechanisms of Ruditapes philippinarum in response to extremely high-temperature environments and to enhance the sustainable development of the R. philippinarum aquaculture industry. In this study, we established a differential expression profile of miRNA under acute heat stress and identified a total of 46 known miRNAs and 80 novel miRNAs, three of which were detected to be significantly differentially expressed. We analyzed the functions of target genes regulated by differentially expressed miRNAs (DEMs) of R. philippinarum. The findings of the KEGG enrichment analysis revealed that 29 enriched pathways in the group were subjected to acute heat stress. Notably, fatty acid metabolism, FoxO signaling pathway, TGF-β signaling pathway, and ubiquitin-mediated proteolysis were found to play significant roles in response to acute heat stress. We established a regulatory map of DEMs and their target genes in response to heat stress and constructed the miRNA-mRNA regulation network. This study provides valuable insights into the response of R. philippinarum to high temperature, helping to understand its underlying molecular regulatory mechanisms under high-temperature stress.