Parsing the microRNA genetics basis regulating skeletal muscle fiber types and meat quality traits in pigs.

Abstract

Muscle fibers are closely related to human diseases and livestock meat quality. However, the genetics basis of microRNAs (miRNAs) in regulating muscle fibers is not completely understood. In this study, we constructed the whole genome-wide miRNA expression profiles of porcine fast-twitch muscle [biceps femoris (Bf)] and slow-twitch muscle [soleus (Sol)], and identified hundreds of miRNAs, including four skeletal muscle-highly expressed miRNAs, ssc-miR-378, ssc-let-7f, ssc-miR-26a, and ssc-miR-27b-3p. Moreover, we identified 63 differentially expressed (DE) miRNAs between biceps femoris vs. soleus, which are the key candidate miRNAs regulating the skeletal muscle fiber types. In addition, we found that the expression of DE ssc-miR-499-5p was significantly correlated to the expression of Myoglobin (r\xa0=\xa00.6872, P\xa0<\xa00.0001) and Myosin heavy chain 7 (MYH7; r\xa0=\xa00.5408, P\xa0=\xa00.0020), and pH45\xa0min (r\xa0=\xa00.3806, P\xa0=\xa00.0380) and glucose content (r\xa0=\xa0-0.4382, P\xa0=\xa00.0154); while the expression of DE ssc-miR-499-3p was significantly correlated to the expression of Myoglobin (r\xa0=\xa00.5340, P\xa0=\xa00.0024) and pH45\xa0min (r\xa0=\xa00.4857, P\xa0=\xa00.0065). Taken together, our data established a sound foundation for further studies on the regulatory mechanisms of miRNAs in skeletal muscle fiber conversion and meat quality traits in livestock, and could provide a genetic explanation of the role of miRNAs in human muscular diseases.