The objective of this study was to investigate the contribution of the changes in the actin-myosin interaction and proteolysis on meat tenderization during postmortem storage. Following slaughter, chicken breast muscles were removed and stored at 4°C. Changes in the actin-myosin interaction over 48 h of aging were determined by monitoring the Mg(2+)- and Ca(2+)-ATPase activities. Shear force values, pH, protein degradation, calpain activities, and myofibrillar ultrastructures were also investigated. Results showed that the initial weak actin-myosin interaction strengthened at 12 h postmortem followed by a gradual weakening, which was supported by a decrease in Mg(2+)-ATPase activities and a lengthening of the sarcomeres. According to SDS-PAGE and Western blotting analyses, the 30-kDa troponin-T fragment could not be readily detected until 12 h, whereas, at the same time, desmin had been rapidly degraded. However, there was a gradual decline in μ-calpain activity, commencing after about 6 h. Meanwhile, the largest decline in shear force was observed between 12 and 24 h postmortem. These findings suggest that weakening of the strong actin-myosin interaction formed at rigor may play a large role in meat tenderization during the early period of storage. It is proposed that weakening of the actin-myosin interaction results in lengthening of the sarcomeres, and then activated calpains are more able to reach their targeted sites, enabling proteolysis. These 2 factors may be involved in the conversion of muscle to tender meat during postmortem storage.
Aims: To investigate the key parameters controlling the exogenous methyl parathion hydrolase (MPH) gene mpd‐targeting frequency at the ribosomal RNA operon (rrn) site of Sphingomonas species which has a wide range of biotechnological applications.
Methods and Results: Targeting vectors with different homology lengths and recipient target DNA with different homology identities were used to investigate the parameters controlling the targeting frequency at the Sphingomonas species rrn site. Targeting frequency decreased with the reduction of homology length, and the minimal size for normal homologous recombination was >100 bp. Homologous recombination could succeed even if there were 3–4% mismatches; however, targeting frequency decreased with increasing sequence divergence. The Red recombination system could increase the targeting frequency to some extent. Targeting of the mpd gene to the rrn site did not affect cell viability and resulted in an increase of MPH‐specific activity in recombinants.
Conclusions: Targeting frequency was affected by homology length, identity and the Red recombination system. The rrn site is a good target site for the expression of exogenous genes.
Significance and Impact of the Study: This work is useful as a foundation for a better understanding of recombination events involving homologous sequences and for the improved manipulation of Sphingomonas genes in biotechnological applications.
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