BLBS102-c16 BLBS102-Simpson March 21, 2012 10:54 Trim: 276mm X 219mm Printer Name: Yet to Come
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Biochemistry of Processing Meat and Poultry
Fidel Toldra ́
Background Information
Description of the Muscle Enzymes
Muscle Proteases
Neutral Proteinases: Calpains
Lysosomal Proteinases: Cathepsins
Proteasome Complex
Exoproteases: Peptidases
Exoproteases: Aminopeptidases and
Carboxypeptidases
Lipolytic Enzymes
Muscle Lipases
Adipose Tissue Lipases
Muscle Oxidative and Antioxidative Enzymes
Oxidative Enzymes
Antioxidative Enzymes
Proteolysis
Proteolysis in Aged Meat and Cooked Meat Products
Proteolysis in Fermented Meats
Proteolysis in Dry-Cured Ham
Nucleotide Breakdown
Glycolysis
Lipolysis
Lipolysis in Aged Meat and Cooked
Meat Products
Lipolysis in Fermented Meats
Lipolysis in Dry-Cured Ham
Oxidative Reactions
Oxidation to Volatile Compounds
Antioxidants
References
Abstract:The biochemical changes happening during meat con-
ditioning (aging) were abundantly reported during the 1970s and
1980s. It has been in recent decades that more information has been
available for the biochemical changes in other products such as
cooked, dry-fermented, and dry-cured meats. The processing and
quality of these meat products have been improved based on a better
knowledge of the biochemical mechanisms involved in the genera-
tion of color, flavor, and texture. The endogenous enzyme systems
that play important roles in these processes mainly through prote-
olysis and lipolysis reactions are described in this chapter. Other
biochemical reactions like oxidation, glycolysis, and nucleotides
breakdown are also described.
BACKGROUND INFORMATION
There are a wide variety of meat products that are attractive
to consumers because of their characteristic color, flavor, and
texture. This perception varies depending on local traditions
and heritage. Most of these products have been produced for
many years or even centuries based on traditional practices. For
instance, cured meat products reached America with settlers.
Pork was cured in New England for consumption in the summer.
Curers expanded these products by trying different recipes based
on the use of additives such salt, sugar, pepper, spices, and so
forth, and smoking (Toldr ́a 2002).
Although scientific literature on biochemical changes during
meat conditioning (aging) and in some meat products were abun-
dantly reported during the 1970s and 1980s, little information
was available on the origin of the biochemical changes in other
products such as cooked, dry-fermented, and dry-cured meats.
The need to improve the processing and quality of these meat
products prompted research in the last decades on endogenous
enzyme systems that play important roles in these processes,
which has been later demonstrated (Toldra 2007). It is impor- ́
tant to remember that the potential role of a certain enzyme in
a specific observed or reported biochemical change can only
be established if all the following requirements are met (Toldr ́a
1992): (1) the enzyme is present in the skeletal muscle or adi-
pose tissue, (2) the enzyme is able to degrade in vitro the natural
substance (i.e., a protein in the case of a protease, a triacylglyc-
erol in the case of a lipase, etc.), (3) the enzyme and substrate
Food Biochemistry and Food Processing, Second Edition. Edited by Benjamin K. Simpson, Leo M.L. Nollet, Fidel Toldr ́a, Soottawat Benjakul, Gopinadhan Paliyath and Y.H. Hui.
©C2012 John Wiley & Sons, Inc. Published 2012 by John Wiley & Sons, Inc.
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