Abstract

Genetic improvement of meat production traits has always been the primary goal of pig breeding. Geographical isolation, natural and artificial selection led to significant differences in the phenotypes of meat production traits between Chinese local pigs and Western commercial pigs. Comparative genomics and transcriptomics analysis provided powerful tools to identify genetic variants and genes associated with skeletal muscle growth. However, the number of available genetic variants and genes are still limited. In this study, a comprehensive comparison of transcriptomes showed that ribosomal protein S27-like (RPS27L) gene was highly expressed in skeletal muscle and up-regulated in Chinese local pigs when compared with Western commercial pigs. Functional analysis revealed that overexpression of RPS27L promoted myoblast proliferation and repressed differentiation in pig skeletal muscle cells. Conversely, the knockdown of RPS27L led to the inhibition of myoblast proliferation and the promotion of differentiation. Notably, a 13-bp insertion-deletion (InDel) mutation was identified within the RPS27L promoter, inserted in Chinese local breeds and predominantly deleted in Western commercial breeds. Luciferase reporter assay suggested this InDel modulated RPS27L expression by influencing transcription factor 3 (TCF3) and myogenic differentiation antigen (MYOD) binding to promoter. Furthermore, a positive correlation was observed between the expression of RPS27L expression and backfat thickness. Association studies demonstrated this InDel was significantly associated with the body weight of pigs at the age of 240 days. Together, our results suggested that RPS27L was a regulator of skeletal muscle development and growth, and was a candidate marker for improving meat production traits in pigs. This study not only provided a biomarker for animal breeding, but also was helpful for understanding skeletal muscle development and muscle-related disease in humans.

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