Food Biochemistry and Food Processing (2 edition)

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1 Introduction to Food Biochemistry 13

to PPO for subsequent action on the phenolic ring of Tyr. Phe-
nolics are hydroxylated, thus producing diphenols that are then
subsequently oxidised to quinones:

2 Tyrosine O 2 +BH 2 →2 Dihydroxylphenylamine+O 2
→2 o-Benzoquinone+2H 2 O

The action of PPO can be desirable in various food products,
such as raisins, prunes, dates, cider and tea; however, the extent
of browning needs to be controlled. The use of reducing com-
pounds is the most effective control method for PPO browning.
The most widespread anti-browning treatment used by the food
industry was the addition of sulfiting agents; however, due to
safety concerns (e.g. allergenic-type reactions), other methods
have been developed, including the use of other reducing agents
(ascorbic acid and analogues, Cys, glutathione), chelating agents
(phosphates, EDTA), acidulants (citric acid, phosphoric acid),
enzyme inhibitors, enzyme treatment and complexing agents
(e.g. copolymerisedβ-cyclodextrin or polyvinylpolypyrroli-
done; Sapers et al. 2002). Application of these PPO activity
inhibitors is strictly regulated in different countries (Eskin 1990,
Gopakumar 2000, Kim et al. 2000). Oxidative browning is one
of three types of browning reactions important in food colour, the
other two being non-oxidative/Maillard browning and carameli-
sation (covered above and extensively in food chemistry texts;
see Damodaran et al. 2008).

Enzymatic Texture Modifications

Transglutaminase (TGase, EC 2.3.2.13, protein-glutamine-y-
glutamyltransferase) catalyses acyl transfer between R group
carboxyamides of glutamine residues in proteins, peptides and
various primary amines; theε-amino group of Lys acts as acyl ac-
ceptor, resulting in polymerisation and inter- or intra-molecular
cross-linking of proteins via formation ofε-(-y-glutamyl) Lys
linkages via exchange of the Lysε-amino group for ammonia
at the carboxyamide group of a glutamine residue. Formation
of covalent cross-links between proteins is the basis for TGase-
based modification of food protein physical properties. The pri-
mary applications of TGase in seafood processing have been
for cold restructuring, cold gelation of pastes and gel-strength
enhancement through myosin cross-linking.

Quality Index

Trimethylamine and itsN-oxide have long been used as indices
for freshness in fishery products. Degradation of trimethylamine
and itsN-oxide leads to the formation of ammonia and formalde-
hyde with undesirable odours. The pathway on the production
of formaldehyde and ammonia from trimethylamine and itsN-
oxide is shown in Figure 1.3.
Most live pelagic and scombroid fish (e.g. tunas, sardines and
mackerel) contain an appreciable amount of His in the free state.
In post-mortem scombroid fish, the free His is converted by the
bacterial enzyme His decarboxylase into free histamine. His-
tamine is produced in fish caught 40–50 hours after death when

Trimethylamine

Trimethylamine N-oxide reductase
Trimethylamine dehydrogenase +H
+H^2 O, NADH
2 O, flavoprotein - NAD+

Trimethylamine
N-oxide

Trimethylamineoxidealdolase

Formaldehyde

Dimethylamine

Dimethylamine + H 2 O, FAD
dehydrogenase


  • FADH


Methylamine Formaldehyde

Amine
dehydrogenase + H 2 O


  • Formaldehyde


Ammonia

Figure 1.3.Degradation of trimethylamine and itsN-oxide.
TrimethylamineN-oxide reductase (EC 1.6.6.9), trimethylamine
dehydrogenase (EC 1.5.8.2), dimethylamine dehydrogenase (EC
1.5.8.1), amine dehydrogenase (EC 1.4.99.3). (From Haard et al.
1982, Gopakumar 2000, Stoleo and Rehbein 2000, IUBMB-NC
website (www.iubmb.org).)

fish are not properly chilled. Improper handling of tuna and
mackerel after harvest can produce enough histamine to cause
food poisoning (called scombroid or histamine poisoning), re-
sulting in facial flushing, rashes, headache and gastrointestinal
disorder. These disorders seem to be strongly influenced by
other related biogenic amines, such as putrescine and cadaver-
ine, produced by similar enzymatic decarboxylation (Table 1.9).
The presence of putrescine and cadaverine is more significant in
shellfish, such as shrimp. The detection and quantification of his-
tamine is fairly simple and inexpensive; however, the detection
and quantification of putrescine and cadaverine are more com-
plicated and expensive. Despite the possibility that histamine
may not be the main cause of poisoning (histamine is not stable
under strong acidic conditions such as the stomach), it is used
as an index of freshness of raw materials due to the simplicity
of histamine analysis (Gopakumar 2000).
Urea is hydrolysed by the enzyme urease (EC 3.5.1.5), pro-
ducing ammonia, which is one of the components measured by
total volatile base (TVB). TVB nitrogen has been used as a qual-
ity index of seafood acceptability by various agencies (Johnson
and Linsay 1986, Cadwallader 2000, Gopakumar 2000). Live
shark contains relatively high amounts of urea, thus under im-
proper handling urea is converted to ammonia, giving shark meat
an ammonia odour, which is a quality defect.
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