BLBS102-c01 BLBS102-Simpson March 21, 2012 11:8 Trim: 276mm X 219mm Printer Name: Yet to Come
1 Introduction to Food Biochemistry 11Table 1.5.Proteases in Animal Tissues and Their DegradationEnzyme ReactionAspartic proteases
Pepsin A (pepsin, EC 3.4.23.1) Preferential cleavage, hydrophobic, preferably aromatic, residues in
P1 and P’1 positions
Gastricsin (pepsin C, EC 3.4.23.3) More restricted specificity than pepsin A; high preferential cleavage
at Tyr bond
Cathepsin D (EC 3.4.23.5) Specificity similar to, but narrower than that of pepsin A
Serine proteases
Trypsin (a- and b-trypsin, EC 3.4.21.4) Cleavage to the C-terminus of Arg and Lys
Chymotrypsin (Chymotrypsin A and B, EC 3.4.21.1) Preferential cleavage: Tyr-, Trp-, Phe-, Leu-
Chymotrysin C (EC 3.4.21.2) Preferential cleavage: Leu-, Tyr-, Phe-, Met-, Trp-, Gln-, Asn-
Pancreatic elastase (pancreato-peptidase E, pancreatic
elastase I, EC 3.4.21.36)Hydrolysis of proteins, including elastin. Preferential cleavage: AlaPlasmin (fibrinase, fibrinolysin, EC 3.4.21.7) Preferential cleavage: Lys>Arg; higher selectivity than trypsin
Enteropeptidase (enterokinase, EC 3.4.21.9) Activation of trypsinogen by selective cleavage of Lys6-Ile7 bond
Collagenase Hydrolysis of collagen into smaller molecules
Thio/cysteine proteases
Cathepsin B (cathepsin B1, EC 3.4.22.1) Broad speicificity, Arg–Arg bond preference in small peptides
Papain (EC 3.4.22.2) Broad specificity; preference for large, hydrophobic amino acid at
P2; does not accept Val at P1′
Fiacin (ficin, EC 3.4.23.3) Similar to that of papain
Bromelain (EC 3.4.22.4) Broad specificity similar to that of pepsin A
γ-Glutamyl hydrolase (EC 3.4.22.12 changed to 3.4.1.99) Hydrolysesγ-glutamyl bonds
Cathepsin H (EC 3.4.22.16) Protein hydorlysis; acts also as an aminopeptidase and
endopeptidase (notably cleaving Arg bond)
Calpain-1 (EC 3.4.22.17 changed to 3.4.22.50) Limited cleavage of tropinin I, tropomyosin, myofibril C-protein,
cytoskeletal proteins; activates phosphorylase, kinase, and
cyclic-nucleotide-dependent protein kinase
Metalloproteases
ProcollagenN-proteinase (EC 3.4.24.14) CleavesN-propeptide of pro-collagen chainα1(I) at Pro+Gln and
α1(II), andα2(I) at Ala+GlnSource: Eskin 1990, Haard 1990, Lowrie 1992, Huff-Lonergan and Lonergan 1999, Gopakumar 2000, Jiang 2000, Simpson 2000, Greaser 2001,
IUBMB-NC website (www.iubmb.org).food processing, e.g. deamidation, natural, enzymatic protein
modifications collectively known aspost-translational modifi-
cationsmay also occur upon their expression in cells. Some
examples are listed in Table 1.8.Protein StructureProtein folding largely occurs as a means to minimise the en-
ergy of the system where hydrophobic groups are maximally
shielded from aqueous environments and while the exposure
of hydrophilic groups to aqueous environments is maximised.
Protein structures follow a hierarchy: primary, secondary, ter-
tiary and quaternary structures. Primary structure refers to the
amino acid sequence; secondary structures are the structures
formed by amino acid sequences (e.g.α-helix,β-sheet, random
coil); tertiary structures are the 3D structures made up of sec-
ondary structures (the way that helices, sheets and random coilspack together) and quaternary structure refers to the associa-
tion of tertiary structures (e.g. two subunits of an enzyme) in
oligomeric proteins. The overall shapes of proteins fall into two
general types: globular and fibrous. Enzymes, transport proteins
and receptor proteins are examples of globular proteins having
a compact, spherical shape. Hair keratin and muscle myosin are
examples of fibrous proteins having elongated structures that are
simple compared to globular proteins.Oxidative BrowningOxidative browning, also called enzymatic browning, involves
the actions of a group of enzymes generally referred to as
polyphenol oxidase (PPO) or phenolase. PPO is normally com-
partmentalised in tissue such that oxygen is unavailable. Injury
or cutting of plant material, especially apples, bananas, pears and
lettuce, results in decompartmentalisation, making O 2 available