Food Biochemistry and Food Processing (2 edition)

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14


Seafood Enzymes: Biochemical Properties


and Their Impact on Quality


Sappasith Klomklao, Soottawat Benjakul, and Benjamin K. Simpson


Introduction
Proteases
Digestive Proteases from Marine Animals
Acid/Aspartic Proteases
Serine Proteases
Thiol/Cysteine Proteases
Metalloproteases
Muscle Proteases from Marine Animals
Cathepsins
Alkaline Proteases
Neutral Ca 2 -Activated Proteases
Fish Protease Applications
Transglutaminase
Polyphenoloxidase
Factors Affecting PPO Activity
Temperature
pH
Activators/Inhibitors
Melanosis
Trimethylamine-N-Oxide Demethylase
Distribution of TMAOase
Purification and Characterization of TMAOase
Prevention of TMAOase Activity
Lipase
Fish Lipase Applications
References

Abstract:Recovery and characterization of enzymes from seafood
has taken place and this has led to the emergence of some interesting
new applications of these enzymes in food processing. The major
enzymes isolated from marine organism and used for industrial ap-
plication are protease, transglutaminase, and lipase. However, some
enzymes found in the fish and aquatic invertebrates have exhibited
an adverse effect on seafood quality such as polyphenoloxidase and
TMAOase. Therefore, appropriate approach to tackle the problem
associated with undesirable enzyme has become the technical con-
cern for processors to maintain the prime quality of seafood and
seafood products. On the other hand, the maximization of desir-

able enzyme activities is the means to come across the fulfillment
of seafood processing. In addition, the cost of enzyme from other
sources could be lowered, leading to the sustainability of seafood
industry, in which all resources could be fully utilized.

INTRODUCTION


The marine environment contains a wide variety of genetic ma-
terial, offering enormous potential as a source of enzymes. Be-
cause of the biological diversity of marine species, a wide ar-
ray of enzymes with unique properties can be recovered and
effectively utilized. Most enzymes from fish and aquatic in-
vertebrates are present in terrestrial organisms. However, the
enzymes from different marine species, as well as their organs
or environment habitat display differences in molecular weight
(MW), amino acid composition, pH and temperature optimum,
stability, and inhibition characteristics and kinetic properties.
Recovery and characterization of enzymes from seafood has
been studied extensively, and this has led to the emergence of
some interesting new applications of these enzymes in food pro-
cessing. The major enzymes isolated from marine organisms
and used for industrial application are proteases, transglutami-
nases, and lipases. However, some enzymes found in fish and
aquatic invertebrates exhibit adverse effects on seafood quality
such as polyphenoloxidases (PPO) and trimethylamine-N-oxide
demethylase (TMAOases). Therefore, appropriate approaches
to tackle the problem associated with undesirable enzymes in
seafood products have become a technical concern for proces-
sors to maintain the prime quality of seafood and seafood prod-
ucts. Conversely, the activities of desirable enzyme should be
maximized to fully exploit the marine resources. Furthermore,
the need of commercial enzymes can be reduced, thereby low-
ering the operation cost associated with those enzymes.

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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