LAUSR

The present study aimed to investigate the impact of the degradation of cytoskeletal proteins (desmin, integrin, vinculin, and talin) on the formation of intracellular gap and drip channel and water-holding capacity in pork. The intensity of intact cytoskeletal proteins and the width of intracellular gap and drip channel were measured in high drip loss and low drip loss groups. The data indicate that the width of intracellular gap and drip channel explained 17% and 62% variation in drip loss, respectively, while the intensity of intact desmin, integrin, and vinculin explained 47%, 34%, and 47% variation in drip loss, respectively. The postmortem formation of intracellular gap is mainly affected by the changes in integrin and vinculin, while the formation of the drip channel is influenced by the changes in desmin. These findings suggest that postmortem formation of wide intracellular gap and drip channels is linked to increased drip loss.