P. L. Sensky scite author profile

One of the most common causes of unacceptability in meat quality is toughness. Toughness is attributed to a range of factors including the amount of intramuscular connective tissue, intramuscular fat, and the length of the sarcomere. However, it is apparent that the extent of proteolysis of key proteins within muscle fibres is significant determinant of ultimate tenderness. The objective of this manuscript is to describe the main endogenous proteolytic enzyme systems that have the potential to be involved in muscle post-mortem proteolysis and whether the experimental evidence available supports this involvement.

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The relationship between slow and fast myosin heavy chain content, calpastatin and meat tenderness in different ovine skeletal muscles

Sazili

Parr

Sensky

et al. 2005

Meat Science

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Calpastatin Expression in Porcine Cardiac and Skeletal Muscle and Partial Gene Structure

Parr

Sensky

Bardsley

et al. 2001

Archives of Biochemistry and Biophysics

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Relationship between skeletal muscle-specific calpain and tenderness of conditioned porcine longissimus muscle.

Parr

Sensky

Scothern

et al. 1999

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Tenderization of skeletal muscle in meat animals has been closely linked to the postmortem activity of the calpain proteolytic enzyme system, which includes the specific inhibitor calpastatin. Increased understanding of the skeletal muscle-specific calpain isoform p94 has prompted suggestions as to whether it too could have a role in the tenderization process. In this study, two groups of pigs were identified in which shear force measurements after 8 d of conditioning indicated a large variation in the tenderness of longissimus muscle. The quantity of p94 in the muscle was monitored by immunoblotting, using a porcine-specific polyclonal antibody raised against a recombinant peptide fragment generated as a fusion protein. The antiserum recognized a 94-kDa protein associated with myofibrils in skeletal but not cardiac muscle, as expected for this calpain isoform, although it could not be tested with the native protein because of the extreme instability of p94. In the first experiment, the mean shear force for the tough group was 6.71 +/- .28 kg (n = 12, SEM) and that of the tender group was 3.87 +/- .12 kg (n = 12), but there was no difference in the normalized absorbance of the immunopositive 94 kDa band on Western blots from samples collected at approximately 40 min postmortem. In the second experiment, the stability of p94 in chilled carcasses was investigated over 24 h, using a further two groups of 10 tough and 10 tender pigs of mean shear force values 5.36 +/- .14 kg and 2.81 +/- .15 kg, respectively. In tough and tender animals, there was a decline (P < .05) in the 94-kDa immunostaining material of mean half-lives of 13.8 and 12.9 h, respectively, although there was considerable variability. Despite this variability in half lives and shear force values, no correlation was seen between these factors. Thus, in porcine longissimus muscle, the variability in tenderness after 8 d of conditioning cannot be attributed to an underlying variability in p94.

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P. L. Sensky

Tenderness – An enzymatic view

The relationship between slow and fast myosin heavy chain content, calpastatin and meat tenderness in different ovine skeletal muscles

Calpastatin Expression in Porcine Cardiac and Skeletal Muscle and Partial Gene Structure

Relationship between skeletal muscle-specific calpain and tenderness of conditioned porcine longissimus muscle.

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