400 Part III: Muscle Foods
Vaisey EB. 1956. The non-enzymatic reduction of
trimethylamine oxide to trimethylamine, dimethy-
lamine, and formaldehyde. Can J Biochem Physiol
34:1085–1090.
van Waarde A. 1988. Biochemistry of non-protein ni-
trogenous compounds in fish including the use of
amino acids for anaerobic energy production. Comp
Biochem Physiol 91B:207–228.
Verrez-Bagnis V, Ladrat C, Noel J, Fleurance J. 2002.
In vitro proteolysis of myofibrillar and sarcoplasmic
proteins of European sea bass (Dicentrarchus labrax
L.) by an endogenous m-calpain. J Sci Food Agric
82:1256–1262.
Verrez-Bagnis V, Noel J, Sauterreau C, Fleurance J.
- Desmin degration in postmortem fish muscle.
J Food Sci 64:240–242.
Vo VT, Kusakabe I, Murakami K. 1984. The aminopep-
tidase activity in fish sauce. Agric Biol Chem 48(2):
525–527.
Wang JH, Jiang ST. 1991. Properties of calpain II from
tilapia muscle (Tilapia niloticaTilapia aurea)
Agric Biol Chem 55:339–345.
Watson CL, Morrow HA, Brill RW. 1992. Proteolysis
of skeletal muscle in yellowfin tuna (Thunnus alba-
cares):Evidence of calpain activation. Comp Bio-
chem Physiol 103B:881–887.
Yamashita M, Konagaya S. 1990. Participation of cath-
epsin L into extensive softening of the muscle of
chum salmon caught during spawning migration.
Bull Japan Soc Sci Fish 56:1271–1277.
———. 1991. Hydrolytic action of salmon cathepsins
B and L to muscle structural proteins in respect of
muscle softening. Bull Japan Soc Sci Fish 57:1917–
1922.
Yancey PH, Clark ME, Hand SC, Bowlus RD, Somero
GN. 1982. Living with water stress: Evolution of
osmolyte systems. Science 217:1214–1222.