Food Biochemistry and Food Processing

17 Seafood Enzymes 397

Lanier TC. 2000. Surimi gelation chemistry. In: JW
Park, editor. Surimi and Surimi Seafood, pp. 237–

266. New York: Marcel Dekker, Inc.
     Leuba JL, Meyer I, Andersen EM, inventors; Nestec S
     A, assignee. 1987 (Oct 20). Method for dissolving
     squid membranes. U.S. patent 4,701,339.
     Lødemel JB. 2004. Gelatinolytic activities, matrix met-
     alloproteinases and tissue inhibitors of metallopro-
     teinases in fish [Dphil thesis]. Tromsø, Norway: Uni-
     versity of Tromsø, Dept. of Marine Biotechnology.
     46 pp.
     Lødemel JB, Olsen RL. 2003. Gelatinolytic activities
     in muscle of Atlantic cod (Gadus morhua),spotted
     wolffish (Anarhichas minor) and Atlantic salmon
     (Salmo salar).J Sci Food Agric 83:1031–1036.
     Lopez-Amaya C, Marangoni AG. 2000a. Phosphol-
     ipases. In seafood processing. In: NF Haard, BK
     Simpson, editors. Seafood Enzymes, pp. 91–119.
     New York: Marcel Dekker Inc.
     ———. 2000b. Phospholipases in seafood processing.
     In: NF Haard, BK Simpson, editors. Seafood En-
     zymes, pp. 121–146. New York: Marcel Dekker, Inc.
     Love RM. 1970. The Chemical Biology of Fishes, p.


267. New York: Academic Press.
     Lowe TE, Ryder JM, Carragher JF, Wells RMG. 1993.
     Flesh quality in snapper, Pagrus auratus,affected by
     capture stress. J Food Sci 58:770–773.
     Lund KE, Nielsen HH. 2001. Proteolysis in salmon
     (Salmo salar)during cold storage: Effects of storage
     time and smoking process. J Food Biochem 25:379–


268. 
     

     Lundstrøm RC, Correia FF, Wilhelm KA. 1982. En-
     zymatic dimethylamine and formaldehyde produc-
     tion in minced American plaice and blackback floun-
     der mixed with a red hake TMAOase active fraction.
     J Food Sci 47:1305–1310.
     Mackie IM. 1993. The effects of freezing on flesh pro-
     teins. Food Rev Int 9:575–610.
     Mcdonald I, Jones NR. 1976. Control of thaw rigor by
     manipulation of temperature in cold store. J Food
     Technol 11:69–76.
     Makinodan Y, Toyohara H, Niwa E. 1985. Implication
     of muscle alkaline proteinase in the textural degrada-
     tion of fish meat gel. J Food Sci 50:1351–1355.
     Michelsen KG, Harmon JS, Sheridan MA. 1994.
     Adipose tissue lipolysis in rainbow trout, Onco-
     rhynchus mykiss, is modulated by phosphorylation
     of triacylglycerol lipase. Comp Biochem Physiol
     107B:509–513.
     Nayak J, Viswanathan Nair PG, Ammu K, Mathew S.

     
     


269. Lipase activity in different tissues of four
     species of fish: Rohu (Labeo rohita Hamilton),oil

sardine (Sardinella longceps linnaeus),mullet (Liza

subviridis Valenciennes)and India mackerel (Rast-

relliger kanagurta Cuvier).J Sci Food Agric 83:

1139–1142.

Nielsen HH. 1995. Proteolytic enzyme activites in salt-

ed herring during cold storage. [DPhil thesis].

Lyngby: Dept. of Biotechnology, Technical Univer-

sity of Denmark. 131 pp.

Nielsen LB, Nielsen HH. 2001. Purification and char-

acterization of cathepsin D from herring muscle

(Clupea harengus).Comp Biochem Physiol 128B:

351–363.

Nielsen MK, Jorgensen BM. 2004. Quantitative rela-

tionship between trimethylamine oxide aldolase

activity and formaldehyde accumulation in white

muscle from gadiform fish during frozen storage.

J Agric Food Chem 52(12): 3814–3822.

Niizeki N, Daikoku T, Hirata T, El-Shourbagy I, Song

X, Sakaguchi M. 2002. Mechanism of biosynthesis

of trimethylamine oxide from choline in the teleost

tilapia, Oreochromis niloticus, under freshwater con-

ditions. Comp Biochem Physiol 131B:371–386.

Nitisewojo P, Hultin HO. 1986. Characteristics of

TMAO degrading systems in Atlantic short finned

squid (Illex illecebrosus).J Food Biochem 10:93–

106.

Nunes ML, Campos RM, Batista I. 1997. Sardine

ripening: Evolution of enzymatic, sensorial and bio-

chemical aspects. In: JB Luten, T Børresen, J Oehl-

enschläger, editors. Seafood from Producer to Con-

sumer, Integrated Approach to Quality, pp. 319–330.

Amsterdam: Elsevier Science B.V.

Ogata H, Aranishi F, Hara K, Osatomi K, Ishihara T.

1998. Proteolytic degradation of myofibrillar com-
      ponents by carp cathepsin L. J Sci Food Agric 76:
      499–504.
      Ohshima T, Wada S, Koizuma C. 1984. Enzymatic
      hydrolysis of phospholipids in cod flesh during stor-
      age in ice. Bull Japan Soc Sci Fish 50(1): 107–114.
      Okuma E, Abe H. 1992. Major buffering constituents
      in animal muscle. Comp Biochem Physiol 102A(1):
      37–41.
      Olsen RL, Øverbø K, Myrnes B. 1991. Alkaline phos-
      phatase from the hepatopancreas of shrimp (Pan-
      dalus borealis): A dimeric enzyme with catalytically
      active subunits. Comp Biochem Physiol 99B:755–


1999. 
      

      Olsen SO, Skåra T. 1997. Chemical changes during rip-
      ening of North Sea herring. In: JB Luten, T Bør-
      resen, J Oehlenschläger, editors. Seafood from Pro-
      ducer to Consumer, Integrated Approach to Quality,
      pp. 305–318. Amsterdam: Elsevier Science B.V.