Preslaughter handling has been shown
to significantly affect meat
quality, but the mechanisms are not fully understood. In this study,
we investigated protein phosphorylation and acetylation in pig muscles
at early postmortem time and their associations with meat quality
attributes. Thirty pigs were randomly assigned to traditional (TH, n = 15) or mild handling (MH, n = 15).
Compared with TH, MH reduced the incidence of pale, soft, and exudative
(PSE) or dark, firm, and dry (DFD) pork. MH induced 65 and 20 peptides
that match with 39 and 12 proteins to be more highly phosphorylated
and acetylated, respectively. Creatine kinase, β-enolase, α-1,4-glucan
phosphorylase, tropomyosin, and myosin heavy chain isoforms 1, 4,
and 7 were found to be simultaneously phosphorylated and acetylated,
which may involve glycolysis, tight junctions, and muscle contraction.
The phosphorylation and acetylation levels of differential proteins
showed significant correlations with meat quality traits. These findings
indicate that preslaughter MH can improve meat quality by regulating
protein phosphorylation and acetylation involving energy metabolism
in muscle.
Lipid molecules are important participants in mitochondria-mediated apoptosis. This study explored the effect of mitochondrial lipids on mitochondria-mediated apoptosis, mitochondrial reactive oxygen species (ROS) production, and muscle oxidation of beef longissimus lumborum (LL, n = 6) and psoas major (PM, n = 6) during 24 h postmortem. A total of 432 lipid species matched with 21 lipid classes were identified. Remarkably, at 12 h postmortem, the levels of cardiolipin and phosphatidylserine in PM and ceramide, cardiolipin, phosphatidylserine, and sphingosine in LL increased significantly compared with 1 h postmortem, indicating that mitochondria-mediated apoptosis in beef muscle was accelerated during early postmortem. Moreover, PM had higher levels of cardiolipin and phosphatidylserine than LL, also suggesting a higher degree of apoptosis in PM during postmortem. Lipid molecules may assist the production of mitochondrial ROS and decrease the mitochondrial membrane potential (MMP) during postmortem apoptosis, resulting in muscle oxidation and the damage of antioxidant system. Notably, compared with LL, PM had higher abundance of apoptosis-related lipid molecules, a higher amount of ROS, faster diminishment in MMP, and then a higher degree of apoptosis. These findings provided new insights into the apoptosis and muscle biochemistry in beef during early postmortem.
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