The effect of cooking temperature on mechanical properties of whole meat, single muscle fibres and perimysial connective tissue.

The structural changes in beef semitendinosus caused by cooking were studied by performing tensile tests of the isolated meat components (i.e. single muscle fibres and perimysial connective tissue) and related to the toughness of the whole meat. Whole meat toughness was found to increase in two separate phases upon cooking from 40-50°C, and again from 60 to 80°C with a decrease in meat toughness between 50 and 60°C, in agreement with previous studies. The changes in whole meat toughness at temperatures below 60°C were found to correspond to changes in the mechanical properties of the perimysial connective tissue, whereas changes of whole meat toughness at temperatures above 60°C were found to correspond to increased breaking strength of single muscle fibres. The myofibrillar component explained approximately 47% of the variation in whole meat toughness upon cooking whereas inclusion of the connective tissue component increased the goodness of fit.

[1]  J. R. Bendall The elastin content of various muscles of beef animals , 1967 .

[2]  P. Purslow,et al.  EFFECT OF POSTRIGOR SARCOMERE LENGTH ON MECHANICAL AND STRUCTURAL CHARACTERISTICS OF RAW AND HEAT‐DENATURED SINGLE PORCINE MUSCLE FIBRES , 1996 .

[3]  C. O. Chichester,et al.  Advances in food research , 1948 .

[4]  P. V. Harris,et al.  THE EFFECTS OF COOKING TEMPERATURE AND TIME ON SOME MECHANICAL PROPERTIES OF MEAT , 1972 .

[5]  F. C. Parrish,et al.  HEAT-INDUCED CHANGES IN, MYOFIBRILLAR PROTEINS OF BOVINE LONGISSIMUS MUSCLE , 1979 .

[6]  K. V. Gilbert,et al.  Temperature‐dependent cooking toughness in beef , 1974 .

[7]  Gretchen L. Humason,et al.  Animal Tissue Techniques , 1974 .

[8]  P. Purslow,et al.  Influence of temperature, fibre diameter and conditioning on the mechanical properties of single muscle fibres extended to fracture , 1996 .

[9]  P. Purslow,et al.  The effect of conditioning on the strength of perimysial connective tissue dissected from cooked meat. , 1991, Meat science.

[10]  H. Daun,et al.  Changes in texture, cooking losses, and myofibrillar structure of bovine M. semitendinosus during heating. , 1999, Meat science.

[11]  Eini Laakkonen,et al.  Factors Affecting Tenderness During Heating of Meat , 1973 .

[12]  P. Purslow,et al.  Structural and mechanical changes in raw and cooked single porcine muscle fibres extended to fracture. , 1995, Meat science.

[13]  P. Purslow,et al.  The strength and stiffness of perimysial connective tissue isolated from cooked beef muscle. , 1989, Meat science.

[14]  P. Purslow The physical basis of meat texture: Observations on the fracture behaviour of cooked bovine M. Semitendinosus. , 1985, Meat science.

[15]  Magni Martens,et al.  TEXTURE AND COLOUR CHANGES IN MEAT DURING COOKING RELATED TO THERMAL DENATURATION OF MUSCLE PROTEINS , 1982 .

[16]  T. Oshida,et al.  Physico-chemical and processing quality of porcine M. longissimus dorsi frozen at different temperatures. , 1995, Meat science.