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International Journal of Food Properties Volume 18, 2015 - Issue 4
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Original Articles

Silver Carp (Hypophthalmichthys molitrix) Surimi Acid-Induced Gel Extract Characteristics: A Comparison with Heat-Induced Gel

Wuyin WengCollege of Food and Biological Engineering, Jimei University, Xiamen, ChinaCorrespondence[email protected]
&
Wenxiang ZhengCollege of Food and Biological Engineering, Jimei University, Xiamen, China
Pages 821-832 | Received 01 Aug 2013, Accepted 07 Nov 2013, Published online: 20 Jan 2015

REFERENCES

  • FAO. The State of World Fisheries and Aquaculture; Food and Agriculture Organization of the United Nations: Rome, 2012; 3–147.
  • Anonymous. China Fisheries Yearbook; China Agricultural Press: Beijing, 2011; 224 pp.
  • Fu, X.; Hayat, K.; Li, Z.; Lin, Q.; Xu, S.; Wang, S. Effect of microwave heating on the low-salt gel from silver carp (Hypophthalmichthys molitrix) surimi. Food Hydrocolloids 2011, 27 (2), 301–308.
  • Luo, Y.; Shen, H.; Pan, D.; Bu, G. Gel properties of surimi from silver carp (Hypophthalmichthys molitrix) as affected by heat treatment and soy protein isolate. Food Hydrocolloids 2008, 22 (8), 1513–1519.
  • Xu, Y.; Xia, W.; Yang, F.; Kim, J.M.; Nie, X. Effect of fermentation temperature on the microbial and physicochemical properties of silver carp sausages inoculated with Pediococcus pentosaceus. Food Chemistry 2010, 118 (3), 512–518.
  • Venugopal, V. Mince and mince-based products. In: Seafood Processing: Adding Value through Quick Freezing, Retortable Packaging and Cook-Chilling; Venugopal, V.; Ed.; Taylor and Francis Group: New York, 2005; 281–318.
  • Totosaus, A.; Montejano, J.G.; Salazar, J.A.; Guerrero, I. A review of physical and chemical protein-gel induction. International Journal of Food Science and Technology 2002, 37 (6), 589–601.
  • Benjakul, S.; Chantarasuwan, C.; Visessanguan, W. Effect of medium temperature setting on gelling characteristics of surimi from some tropical fish. Food Chemistry 2003, 82 (4), 567–574.
  • Stone, A.P.; Stanley, D.W. Mechanisms of fish muscle gelation. Food Research International 1992, 25 (5), 381–388.
  • Venugopal, V.; Doke, S.N.; Nair, P.M. Gelation of shark myofibrillar proteins by weak organic acids. Food Chemistry 1994, 50 (2), 185–190.
  • Lucey, J.A.; Singh, H. Formation and physical properties of acid milk gels: A review. Food Research International 1997, 30 (7), 529–542.
  • Niwa, E.; Ueno, S.; Kanoh, S. Mechanism for the gelation of unheated surimi by vinegar curing. Bioscience, Biotechnology, and Biochemistry 1992, 56 (1), 58–61.
  • Chawal, S.P.; Venugopal, V.; Nair, P.M. Gelation of proteins from washed muscle of threadfin bream (Nemipterus japonicus) under mild acidic conditions. Journal of Food Science 1996, 61 (2), 362–367.
  • Abe, S.; Weng, W.; Tanaka, M.; Limpisophon, K.; Osako, K. Effect of egg white and setting on the gelation of vinegar cured kamaboko. Nippon Suisan Gakkaishi 2009, 75 (4), 695–700 ( in Japanese).
  • Techaratanakrai, B.; Nishida, M.; Igarashi, Y.; Watanabe, M.; Okazaki, E.; Osako, K. Effect of setting conditions on mechanical properties of acid-induced kamaboko gel from squid Todarodes pacificus mantle muscle meat. Fisheries Science 2011, 77 (3), 439–446.
  • Techaratanakrai, B.; Okazaki, E.; Osako, K. Effect of organic salts on setting gels and their corresponding acids on kamaboko gels prepared from squid Todarodes pacificus mantle muscle. Fisheries Science 2012, 78 (3), 707–715.
  • Chaijan, M.; Panpipat, W.; Benjakul, S. Physicochemical properties and gel-forming ability of surimi from three species of mackerel caught in Southern Thailand. Food Chemistry 2010, 121 (1), 85–92.
  • Sato, R.; Sawabe, T.; Kishimura, H.; Hayashi, K.; Saeki, H. Preparation of neoglycoprotein from carp myofibrillar protein and alginate oligosaccharide: Improved solubility in low ionic strength medium. Journal of Agriculture and Food Chemistry 2002, 48 (1), 17–21.
  • Lowry, O.H.; Rosebrough, N.J.; Farr, A.L.; Randall, R.J. Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry 1951, 193 (1), 265–275.
  • Laemmli, U.K. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 1970, 227 (5259), 680–685.
  • Uresti, R.M.; López-Arias, N.; González-Cabriales, J.J.; Ramírez, J.A.; Vázquez, M. Use of amidated low methoxyl pectin to produce fish restructured products. Food Hydrocolloids 2003, 17 (2), 171–176.
  • Pérez-Mateos, M.; Lourenço, H.; Montero, P.; Borderías, A.J. Rheological and biochemical characteristics of high-pressure- and heat-induced gels from blue white (Micromesistius poutassou) muscle proteins. Journal of Agricultural and Food Chemistry 1997, 45 (1), 44–49.
  • Yongsawatdigul, J.; Park, J.W. Effect of alkali and acid solubilization on gelation characteristics of rockfish muscle proteins. Journal of Food Science 2004, 69 (7), 499–505.
  • Sousa, R.D.C.S.; Coimbra, J.S.R.; Garcia Rojas, E.E.; Minim, L.A.; Oliveira, F.C.; Minim, V.P.R. Effect of pH and salt concentration on the solubility and density of egg yolk and plasma egg yolk. LWT–Food Science and Technology 2007, 40 (7), 1253–1258.
  • Weng, W.Y.; Hamaguchi, P.Y.; Osako, K.; Tanaka, M. Effect of endogenous acid proteinases on the properties of edible films prepared from Alaska pollack surimi. Food Chemistry 2007, 105 (3), 996–1002.
  • Tadpitchayangkoon, P.; Park, J.W.; Yongsawatdigul, J. Conformational changes and dynamic rheological properties of fish sarcoplasmic proteins treated at various pHs. Food Chemistry 2010, 121 (4), 1046–1052.
  • Venugopal, V.; Kakatkar, A.; Bongirwar, D.R. Gelation of shark meat under mild acidic conditions: Physicochemical and rheological characterization of the gel. Journal of Food Science 2002, 67 (7), 2681–2686.
  • Shie, J.S.; Park, J.W. Physical characteristics of surimi seafood as affected by thermal processing conditions. Journal of Food Science 1999, 64 (2), 287–290.
  • Gasperlin, L.; Zlender, B.; Abram, V. Colour of normal and high pH beef heated to different temperatures as related to oxygenation. Meat Science 2000, 54 (4), 391–398.
  • Rawdkuen, S.; Benjakul, S. Whey protein concentrate: Autolysis inhibition and effects on the gel properties of surimi prepared from tropical fish. Food Chemistry 2008, 106 (3), 1077–1084.
  • Tadpitchayangkoon, P.; Park, J.W.; Yongsawatdigul, J. Gelation characteristics of tropical surimi under water bath and ohmic heating. LWT–Food Science and Technology 2012, 46 (1), 97–103.
  • Roussel, H.; Cheftel, J.C. Mechanisms of gelation of sardine proteins: Influence of thermal processing and of various additives on the texture and protein solubility of kamaboko gels. International Journal of Food Science and Technology 1990, 25 (3), 260–280.
  • Barbut, S.; Foegeding, E.A. Ca2+-induced gelation of preheated whey protein isolate. Journal of Food Science 1993, 58 (4), 867–871.

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