Optimisation of tenderisation, ageing and tenderness.

[1]  D. S. Hale,et al.  National beef tenderness survey. , 1991, Journal of animal science.

[2]  S. Shackelford,et al.  Effect of calcium chloride infusion on the tenderness of lambs fed a beta-adrenergic agonist. , 1991, Journal of animal science.

[3]  J. Crouse,et al.  Postmortem proteolysis in longissimus muscle from beef, lamb and pork carcasses. , 1991, Journal of animal science.

[4]  T. Wheeler,et al.  Mechanisms associated with the variation in tenderness of meat from Brahman and Hereford cattle. , 1990, Journal of animal science.

[5]  M. Dikeman,et al.  Evaluation of attributes that affect longissimus muscle tenderness in Bos taurus and Bos indicus cattle. , 1990, Journal of animal science.

[6]  M. Hathaway,et al.  Alterations in postmortem degradation of myofibrillar proteins in muscle of lambs fed a beta-adrenergic agonist. , 1990, Journal of animal science.

[7]  A. Ouali MEAT TENDERIZATION: POSSIBLE CAUSES AND MECHANISMS. A REVIEW. , 1990 .

[8]  P. Cheeke,et al.  Effects of cimaterol on rabbit growth and myofibrillar protein degradation and on calcium-dependent proteinase and calpastatin activities in skeletal muscle. , 1989, Journal of animal science.

[9]  R. M. Koch,et al.  Comparisons of Bos Indicus and Bos Taurus Inheritance for Carcass Beef Characteristics and Meat Palatability , 1989 .

[10]  D. Beermann,et al.  Reduced calcium-dependent proteinase activity in cimaterol-induced muscle hypertrophy in lambs. , 1988, Journal of animal science.

[11]  J. R. Stouffer,et al.  Muscle metabolism and real-time ultrasound measurement of muscle and subcutaneous adipose tissue growth in lambs fed diets containing a beta-agonist. , 1986, Journal of animal science.

[12]  P. Bechtel,et al.  Effect of the beta-adrenergic agonist cimaterol (CL 263,780) on the growth and carcass characteristics of finishing swine. , 1985, Journal of animal science.

[13]  F. Mckeith,et al.  Reducing Postmortem Aging Time of Beef with Electrical Stimulation , 1981 .

[14]  H. Macfie,et al.  Tenderising in M. longissimus dorsi of beef, veal, rabbit, lamb and pork. , 1981, Meat science.

[15]  H. Macfie,et al.  Quantifying changes in tenderness during storage of beef. , 1981, Meat science.

[16]  H. Cross,et al.  ACCELERATED PROCESSING SYSTEMS FOR USDA CHOICE AND GOOD BEEF CARCASSES , 1980 .

[17]  R. G. Kauffman,et al.  Early-postmortem cooling rate and beef tenderness. , 1980, Meat science.

[18]  D. Olson,et al.  MYOFIBRIL FRAGMENTATION AND SHEAR RESISTANCE OF THREE BOVINE MUSCLES DURING POSTMORTEM STORAGE , 1976 .

[19]  K. V. Gilbert,et al.  The temperature coefficient of beef ageing , 1976 .

[20]  E. Dransfield,et al.  The tenderising effect of a muscle proteinase on beef , 1974 .

[21]  R. H. Locker,et al.  The effect of repeated freeze–thaw cycles on tenderness and cooking loss in beef , 1973 .

[22]  P. V. Harris,et al.  THE EFFECTS OF ULTIMATE pH ON OVINE MUSCLE: MECHANICAL PROPERTIES , 1972 .

[23]  G. M. Weiss,et al.  TENDERNESS OF BEEF LONGISSIMUS DORSI MUSCLE FROM STEERS, HEIFERS AND BULLS AS INFLUENCED BY SOURCE, POST-MORTEM AGING AND CARCASS CHARACTERISTICS , 1971 .

[24]  K. V. Gilbert,et al.  Shortening as a factor in meat ageing , 1967 .

[25]  B. Marsh,et al.  Studies in Meat Tenderness. III. The Effects of Cold Shortening on Tenderness , 1966 .

[26]  E. C. Bate-smith,et al.  Factors determining the time course of rigor mortis , 1949, The Journal of physiology.

[27]  O. G. Hankins,et al.  HISTOLOGICAL CHARACTERISTICS, TENDERNESS, AND DRIP LOSSES OF BEEF IN RELATION TO TEMPERATURE OF FREEZING , 1945 .

[28]  E. Dransfield,et al.  Modelling post-mortem tenderisation-IV: Role of calpains and calpastatin in conditioning. , 1993, Meat science.

[29]  E. Dransfield Modelling post-mortem tenderisation-III: Role of calpain I in conditioning. , 1992, Meat science.

[30]  E. Dransfield,et al.  Modelling post-mortem tenderisation-II: Enzyme changes during storage of electrically stimulated and non-stimulated beef. , 1992, Meat science.

[31]  E. Dransfield,et al.  Modelling post-mortem tenderisation-I: Texture of electrically stimulated and non-stimulated beef. , 1992, Meat science.

[32]  J. Crouse,et al.  Acceleration of postmortem tenderization in lamb and Brahman-cross beef carcasses through infusion of calcium chloride. , 1990 .

[33]  E. Dransfield,et al.  Proteinase (Cathepsin B, D, L and Calpains) levels and conditioning rates in normal, electrically stimulated and high-ultimate-pH chicken muscle. , 1990, Meat science.

[34]  J. Renou,et al.  Anabolic agents in beef production: Effects on muscle traits and meat quality. , 1988, Meat science.

[35]  E. Dransfield,et al.  Conditioning of meat from different species. Relationship between tenderising and the levels of cathepsin B, cathepsin L, calpain I, calpain II and β-glucuronidase. , 1987, Meat science.

[36]  L. Poste,et al.  Effect of low voltage electrical stimulation on the distribution of cathepsin D and the palatability of the Longissimus dorsi from Holstein veal calves fed a corn or barley diet. , 1987, Meat science.

[37]  E. C. Smith,et al.  Postmortem Changes in Animal Tissues-the Conditioning or Ripening of Beef. , 1929 .