RESUMO
MicroRNAs (miRNAs) play an important role in regulating gene expression, and myostatin (MSTN) has been widely recognized as a key gene for muscle growth and development. Through high-throughput sequencing to study the effects of starvation on miRNA transcriptomes in Larimichthys crocea muscle tissue, we found that the expression of miR-2014, miR-1231 and miR-1470 were significantly different between fasting and normal feeding Larimichthys crocea. Bioinformatics analysis predicted that miR-2014, miR-1231 and miR-1470 target MSTN mRNA 3'UTR. To verify the accuracy of predictions, we constructed double luciferase plasmids containing MSTN 3'UTR and confirmed that miR-2014-5p and miR-1231-5p can inhibit MSTN expression by targeting MSTN 3'UTR using double luciferase experiments, while miR-1470 is not involved in regulation. Subsequent site-directed mutation experiments reflected the specificity of the target sequence. In addition, quantitative PCR experiments revealed that miR-2014-5p and miR-1231-5p may participate in the regulation of MSTN expression in fasting and refeeding period, respectively. These results implied that miRNA may take part in muscle growth regulation during starvation. It provides some insights into the molecular regulation mechanism of MSTN in response to starvation stress in fish.