Food Biochemistry and Food Processing

17 Seafood Enzymes 395

Dickson KA. 1995. Unique adaptations of the metabol-
ic biochemistry of tunas and billfishes for the life in
the pelagic environment. Env Biol Fish 42:65-97.
Dingle JR, Hines JA. 1971. Degradation of inosine
5
monophosphate in the skeletal muscle of several
North Atalantic fishes. J Fish Res Bd Can 28(8):
1125–1131.
Dingle JR, Keith RA, Lall B. 1977. Protein instability
in frozen storage induced in minced muscle of flat-
fishes by mixture with muscle of red hake. Can Inst
Food Sci Technol J 10:143–46.
Ellington WR. 2001. Evolution and physiological roles
of phosphagen systems. Ann Rev Phys 63:289–325.
Engvang K, Nielsen HH. 2000. In situactivity of chy-
motrypsin in sugar-salted herring during cold stor-
age. J Sci Food Agric 80:1277–1283.
Ertbjerg P, Larsen LM, Møller AJ. 1999. Effect of pre-
rigor lactic acid treatment on lysosomal enzyme re-
lease in bovine muscle. J Sci Food Agric 79:98–100.
Fernandez-Reiriz MJ, Pastoriza L, Sampedro G, Her-
rera JJ. 1995. Changes in lipids of whole and minced
rayfish (Raja clavata)muscle during frozen storage.
Z Lebensm Unters Forsch. 200(6): 420–424.
Fields PA. 2001. Protein function at thermal extremes:
balancing stability and flexibility. Comp Biochem
Physiol 129A:417–431.
Fletcher GC, Hallett IC, Jerrett AR, Holland AJ. 1997.
Changes in the fine structure of the myocommata-
muscle fibre junction related to gaping in rested and
exercised muscle from king salmon (Oncorrhynchus
tshawytscha)Lebensm-Wiss Technol 30(3): 246–
252.
Fluke S. 1994. Taste active compounds of seafoods with
a special reference to umani substances. In: F Shahidi,
JR Botta, editors. Seafoods: Chemistry, Processing
Technology and Quality, pp. 115–139. Glasgow, Great
Britain: Blackie Academic and Professional.
Foegeding EA, Lanier TC, Hultin HO. 1996. Charac-
teristics of edible muscle tissues. In: OR Fenema,
editor. Food Chemistry, 3rd edition, pp. 879–942.
New York: Marcel Dekker, Inc.
Geromel EJ, Montgomery MW. 1980. Lipase release
from lysosomes of rainbow trout (Salmo gairdneri)
muscle subjected to low temperatures. J Food Sci
45:412–419.
Geesink GH, Morton JD, Taylor RG, Christiansen JA.

2000. Partial purification and characterization of
      Chinook salmon (Oncorhynchus tshawytscha)cal-
      pains and an evaluation of their role in postmortem
      proteolysis. J Food Sci 77:2685–2692.
      Gibbs, AG. 1997. Biochemistry at depth. In: DJ
      Randall, AP Farrell, editors. Deep-Sea Fishes. Fish

Physiology, vol. 16, pp. 239–271. San Diego,

California: Academic Press.

Gildberg A. 1993. Enzymic processing of marine raw

materials. Process Biochem 28:1–15.

———. 2001. Utilisation of male Arctic capelin and

Atlantic cod intestines for fish sauce production—

Evaluation of fermentation conditions. Biores.

Technol. 76:119–123.

Gildberg A, Almas KA. 1986. Utilization of fish viscera.

In: ML Maguer, P Jelen, editors. Food Engineering

and Process Applications 2, Unit Operations, pp.

425–435. London: Elsevier Applied Science.

Gildberg A, Simpson BK, Haard NF. 2000 Uses of

enzymes from marine organisms. In: NF Haard, BK

Simpson, editors. Seafood Enzymes, pp. 619–639.

New York: Marcel Dekker, Inc.

Gill T. 2000. Nucleotide-degrading enzymes. In: NF

Haard, BK Simpson, editors. Seafood Enzymes, pp.

37–68. New York: Marcel Dekker, Inc.

Haard N. 2002. The role of enzymes in determining

seafood color, flavor and texture. In: HA Bremner,

editor. Safety and Quality Issues in Fish Processing,

pp. 220–253. Cambridge: Woodhead Publishing

Limited and CRC Press LLC.

Haard NF, Simpson BK (eds.). 2000. Seafood En-

zymes. New York: Marcel Dekker, Inc. 681 pp.

Hernandez-Herrero MM, Roig-Sagues AX, Lopez-

Sabater EI, Rodriguez-Jerez JJ, Mora-Ventura MT.

1999. Protein hydrolysis and proteinase activity dur-
      ing the ripening of salted anchovy (Engraulis encra-
      sicholusL.): A microassay method for determing the
      protein hydrolysis. J Agric Food Chem 47:3319–


2000. 
      

      Hirano K, Okada E, Tanaka T, Satouchi K. 2000.
      Purification and regiospecificity of multiple enzyme
      activities of phospholipase A 1 from bonito muscle.
      Biochim Biophys Acta 1483:325–333.
      Ho ML, Chen GH, Jiang ST. 2000. Effects of mackerel
      cathepsins L and L-like, and calpain on the degrada-
      tion of mackerel surimi. Fish Sci 66:558–568.
      Hughes RB, Jones NR. 1966. Measurement of hypox-
      anthine concentration in canned herring as an index
      of freshness of raw material with a comment on
      flavour relations. J Sci Food Agric 17(9): 434–436.
      Hultin HU. 1984. Post mortem biochemistry of meat
      and fish. J Chem Ed 61(4): 289–298.
      Hultin HO. 1992. Trimethylamine-N-oxide (TMAO)
      demethylation and protein denaturation in fish mus-
      cle. In: GJ Flick, Jr, RE Martin, editors. Advances in
      Seafood Biochemistry. Composition and Quality, pp.
      25–42.Lancaster, Pennsylvania: Technomic Publish-
      ing Company, Inc.