Biology Reference
In-Depth Information
Gordon, D.T. and Ratliff, V. (1992). The implications of omega-3-fatty acids in human health.
In: Advances in Seafood Biochemistry. G. J. Flick and R. E. Martin (eds). Technomic Publ.
Co. Inc., Lancaster, Basel, Switzerland, pp 69-98.
Gormley, T.R., Neumann, T., Fagan, J.D. and Brunton, N.P. (2007). Taurine content of raw and
processed fi sh fi llets. Eur. Food Res. Technol. 225: 837-842.
Guerard, F. (2006). Enzymatic methods for marine by-products recovery. In: Maximizing
the Value of Marine By-products. F. Shahidi (ed). CRC Press, Boca Raton, Fl, USA pp.
Guerard, F., Duffose, L., De La Broise, D. and Binet, A. (2001). Enzymatic hydrolysis of
proteins from yellow fi n tuna ( Thunnus albacares) wastes using alcalase. J. Mol. Catalysis
B: Enzymatic 11: 1051-1059.
Guerard, F., Guimas, L. and Binet, A. (2002). Production of tuna waste hydrolysates by a
commercial neutral protease preparation. J. Mol. Cat. B: Enz. 19/20: 489-498.
Haard, N.F. (1998). Specialty enzymes from marine organisms. Food Technol. 53(7): 64-67.
Haard, N.F. and Simpson, B.K. (2000) Seafood Enzymes. Marcel Dekker, New York, USA.
Haard, N.F., Simpson, B.K. and Sikorski, Z.E. (1994). Biotechnological applications of seafood
proteins and other nitrogenous compounds. In: Seafood Proteins. Z.E. Sikorski, B.S. Pan
and F. Shahidi (eds). Chapman and Hall, New York, U.S.A, pp. 195-216.
Hall, G.M. and Silva, S. (1992). Lactic acid fermentation of shrimp ( Penaeus monodon ) waste
for chitin recovery. In: Advances in Chitin and Chitosan. C. J. Brine, P. A. Sandford and J.
P. Zikakis (eds). Elsevier Applied Science, London, UK pp. 633-638.
Hall, G.M., Zakaria, Z. and Reid, C.I. (1997). Recovery of value added products from shellfi sh
waste by a lactic acid fermentation process. In: Seafood from Producers to Consumers,
Integrated Approach to Quality. J.B. Luton and T. Bonneson (eds). Elsevier Applied
Science, London, UK pp. 97-102.
Harish Prashanth, K.V. and Taranathan, R.N. (2005). Deploymerized products of chitosan as
potent inhibitors of tumor-induced angiogenesis. Biochim. Biophys. Acta 1722: 22-29.
Harish Prashanth, K.V., Lakshman, K., Shamala, T.R. and Taranathan, R.N. (2005).
Biodegradation of chitosan-graft-polymethylmethacrylate fi lms. Int. Biodeter. Biodegrad.
56: 115-120.
Hayes, M., Carney, B., Slater, J. and Bruck, W. (2008a). Mining marine shellfi sh wastes
for bioactive molecules: Chitin and Chitosan-Part A: Extraction methods. Biotechnol. J.
3: 871-877.
Hayes, M., Carney, B., Slater, J. and Bruck, W. (2008b). Mining marine shellfi sh wastes for
bioactive molecules: Chitin and chitosan-Part B: Application. Biotechnol. J. 3: 878-889.
Healy, M.G., Romo, C.R. and Bustos, R. (1994). Bioconversion of marine crustacean shell
waste. Resour. Conserv. Recycl . 11: 139-147.
Healy, M., Green, M. and Healy, A. (2003). Bioprocessing of marine crustacean shell waste.
Acta Biotechnol. 23: 151-160.
Heu, M.S., Kim, J.S. and Shahidi, F. (2003). Components and nutritional quality of shrimp
processing by-products. Food Chem. 82: 235-242.
Holub, B.J. (2002). Clinical nutrition: 4. Omega-3 fatty acids in cardiovascular care. Can. Med.
Assoc. J. 166: 608-615.
Hoyle, N.T. and Merritt, J.H. (1994). Quality of fi sh protein hydrolysate from Herring ( Clupea
harengus ). J. Food Sci. 59: 76-79 & 129.
Hurst, D. (2006). Marine functional foods and functional ingredients—a briefi ng document.
Marine Foresight Series 5. Available as PDF document at
Je, J-Y., Qian, Z-J., Byun, H-G. and Kim, S.K. (2007). Purifi cation and characterization of
an antioxidant peptide from tuna backbone protein by enzymatic hydrolysis. Process.
Biochem. 42: 840-846.
Johnson, E.L. and Peniston, Q.P. (1982). Utilization of shellfi sh waste for chitin and chitosan
production. In: Chemistry and Biochemistry of Marine Food Products. R.E. Martin, G.
J. Flick, C. E. Hobard and D. R. Ward (eds). AVI Publication Co, Westport, CA, USA pp.
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