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青鳞鱼蛋白复合酶控制水解动力学模型的研究 被引量:8

Hydrolysis Dynamics Model of Protein from Harengula zunasi by Compound Enzymes
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摘要 在假设复合酶恒温控制水解动力学遵循内切酶限制水解动力学历程的前提下 ,采用实验方法求出了复合酶恒温控制水解动力学模型。结果表明 ,复合酶对青鳞鱼蛋白进行控制水解的动力学模型为 :R =(0 .315 4e0 - 0 .0 186s0 )exp(- 0 .170DH) ,DH =5 .882ln[1+(0 .0 5 36 2e0 /s0 -0 .0 0 32 )t];其酶失活常数Kd=0 .0 5 36min- 1;水解反应能够顺利进行的条件是 :e0 /s0 >c0 ,常数c0 =5 .90× 10 - 2 。验证实验证明 ,根据复合酶恒温控制水解动力学模型得到的理论DH与实际DH基本吻合 ,该动力学模型具有很强的实用价值。 In this study, we supposed that hydrolysis dynamics model was controlled by compound enzymes at the same temperature followed the course of limit hydrolysis dynamics model of inner-enzyme, thus obtained hydrolysis dynamics model controlled by compound enzymes at the same temperature. These results suggested that the hydrolysis dynamics model controlled by compound enzymes of protein from Hargenlua zunasi expressed as:R=(0 315 4 e 0- 0.018 6 s 0)exp(-0.170 DH),DH=5.882 ln\[1+(0.053 62 e 0/s 0-0.003 2)t\]; the inactive constant of enzyme is K d=0.053 6 min -1; and the optimum conditions that assure hydrolysis successfully is :e 0/s 0>c 0, the constant c 0=5.90×10 -2. The experiment tested that, because the theoretical DH of hydrolysis dynamics model controlled by compounds is consistent with the practical DH, therefore the dynamics model has high applied value.
作者 邓尚贵 彭志英 常志娟 杨萍
机构地区 华南理工大学食品生物工程学院 湛江海洋大学食品科技学院
出处 《湛江海洋大学学报》 CAS 2004年第4期28-32,共5页 Journal of Zhanjiang Ocean University
基金 国家自然科学基金资助项目 (30 37112 3)
关键词 水解动力学 复合酶 控制水解 青鳞鱼 hydrolysis dynamics compound enzyme controlled hydrolysis Harengula zunasi
分类号 TS201.21 [轻工技术与工程—食品科学]
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参考文献3

  • 1Marquez MC,Vazquez MA. Modeling of enzymatic protein hydrolysis [J]. Process biochemistry, 1999, 35:111-117
  • 2Adler-Nissen J. Enzymic hydrolysis of food proteins [A]. In: Adler-Nissen, J. A review of food hydrolysis-specific areas [C]. Copenhagen, Denmark: Elsevier applied science publishers, 1986. 57-109
  • 3Tello,PG. Enzymatic hydrolysis of whey protein:Ⅰ Kinetic Models [J]. Biotechnology and bioengineering,1994,44:523-528

同被引文献31

  • 1Deng S G, Huo J C, Xie Ch, 2008. Preparation by enzymolysis and bioactivity of iron complex of fish protein hydrolyzed (Fe-FPH) from low value fish. Chinese Journal of Oceanology and Limnology, 26(3): 300--306.
  • 2Deng S G, Peng Z Y, Chen F et al, 2004. Amino acids composition and anti-anaemia action of hydrolyzed offal protein from Harengμ la zunasi Bleeker. Food Chemistry, 87(1): 97-- 102.
  • 3Freeman H C, Hoogland P L, 1956. Processing of cod and haddock viscera: 1. Laboratory experiments. J Fish Res Board Can, 13:869--877.
  • 4Hale M B, 1969. Relative activities of commercial-available enzymes in the hydrolysis of fish protein. Food Technol, 23: 107-110.
  • 5Hale M B, 1974. Using enzymes to make fish protein concentrates. Mar Fish Rev, 36:15--19.
  • 6Kxistinsson H G, Rasco B A, 2000a. Biochemical and functional properties of Atlantic salmon (Salmo salar) muscle proteins hydrolyzed with various alkaline proteases. J Agric Food Chem, 48:657--666.
  • 7Kristinsson H G, Rasco B A, 2000b. Fish protein hydrolysates: production, biochemical, and functional properties. CRC Crit Rev Food Sci Nutr, 40:43-81.
  • 8Kristinsson H G, Rasco B A, 2000c. Kinetics of the hydrolysis of Atlantic salmon (Salmo salar) muscle proteins by alkaline proteases and a visceral serine protease mixture. Proc Biochem, 36:131--139.
  • 9Liaset B, Lied E, Espe M, 2000. Enzymatic hydrolysis of by-products from the fish-filleting industry; chemical characterisation and nutritional evaluation. J Sci Food Agric, 80: 581--589.
  • 10McBride J R, Idler D R, MacLeod R A, 1961. The liquefaction of British Columbia herring by ensilage, proteolytic enzymes and acid hydrolysis. J Fish Res Board Can, 18:93--112.

引证文献8

二级引证文献62

湛江海洋大学学报
2004年 第4期

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