期刊文献+

青鳞鱼蛋白风味酶控制水解动力学模型 被引量:2

Dynamics Model of Controlled Hydrolysis of Proteins from Harengula zunasi by Flavorease
下载PDF
导出
摘要 在假设风味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,通过实验方法求出了风味酶恒温控制水解动力学模型。结果表明,风味酶对青鳞鱼蛋白进行控制水解的动力学模型为:R= ( 54 .782e0 -0 .045s0 )exp( -0 .398DH),DH=2 .513ln[1+(21 .803e0 /s0 -0. 0179)t];其酶失活常数kd=22. 155 6min-1;水解反应能够顺利进行的条件是:e0 /s0 >c0,常数c0 =8 .214×10-4。验证实验证明,根据风味酶恒温控制水解动力学模型得到的理论水解度与实际水解基本吻合。 In this study, we supposed that hydrolysis dynamics model controlled by flavourease at the same temperature followed the course of limit hydrolysis dynamics model of inner-enzyme, that obtained hydrolysis dynamics model controlled by flavourease at the same temperature. These results suggested that the hydrolysis dynamics model controlled by flavourease of muscle proteins from Harengula zunasi expressed as: R=(54.782e_0-0.045s_0)exp(-0.398DH),DH=2.513 ln[1+(21.803e_0/s_0- 0.017 9)t]; the losing active constant of enzyme is k_d=22.155 6 min -1;and the optimum conditions that assure hydrolysis successfully is:e_0/s_0>c_0,the constant is c_0=8.214×10 -4. The experiment tested that the theoretical DH of hydrolysis dynamics model controlled by flavourease is consistent with the practical DH.
出处 《湛江海洋大学学报》 CAS 2005年第1期25-28,共4页 Journal of Zhanjiang Ocean University
基金 国家自然科学基金资助项目(30371123)
关键词 风味酶 控制水解 水解动力学 青鳞鱼 flavourease controlled hydrolysis hydrolysis dynamics Harengula zunasi Bleeker
  • 相关文献

参考文献4

二级参考文献15

  • 1王长云,薛长湖,陈修白.低酶水解法提取无苦味鳀鱼水解蛋白[J].水产学报,1995,19(4):350-353. 被引量:23
  • 2Marquez MC,Vazquez MA. Modeling of enzymatic protein hydrolysis [J]. Process biochemistry, 1999, 35:111-117
  • 3Adler-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
  • 4Tello,PG. Enzymatic hydrolysis of whey protein:Ⅰ Kinetic Models [J]. Biotechnology and bioengineering,1994,44:523-528
  • 5大连轻工业学院 等.食品分析[M].北京:中国轻工业出版社,1994..
  • 6Siemensma A D.Trends in FoodSci.& Technol.,1993,4:16-21
  • 7Margot A,Flaschel E,Renken A.Process Biochemistry,1997,32(3):217-223
  • 8Novo Industri A/S.AF4/5 Novo Industri A/S.Denmark:Bagsvaerd,1978
  • 9Novo Industries.Information Tecnica.Novo Industries,1989
  • 10Gonza'lez-Tello P,Camacho F,Jurado E.Biotechnol.Bioeng.,1994,44(4):523-528

共引文献37

同被引文献11

  • 1齐崴,何志敏,何明霞.蛋白质酶促水解反应机理与动力学模型[J].天津大学学报(自然科学与工程技术版),2005,38(9):768-773. 被引量:16
  • 2赵利,苏伟,胡火根,戴银根,杨玉玲.胶原蛋白生物活性肽的研究进展[J].食品科学,2005,26(9):578-582. 被引量:36
  • 3Byun H G, Kim S K. Purification and characterization of angiotensin Ⅰ converting enzyme (ACE) inhibitory peptides from Alaska Pollack ( Theragra chalcogramma ) skin [ J ] . Process Biochemistry,2001,36 : 1155-1162.
  • 4Kim S K, Kim Y T,Byun H G,Nam K S,Joo D S. Isolation and characterization of antioxidative peptides from gelatin hydrolysate of Alaska Pollack skim [ J ]. Journan of Agricultural and Food Chemistry,2001,49: 1984-1989.
  • 5Mendis E,Rajapakes N, Kim S K. Antixoidant properties of a radical-scavenging peptide purified from enzymatically prepare fish skin gelatin hydrolysate [ J ]. Journal of Agricultural and Food Chemistry,2005,53 : 581-587.
  • 6Qi W,He Z M,Shi D Q. Product distribution of casein tryptic hydrolysis based on HPSEC analysis and molecular mechanism [J]. Chemical Engineering Science, 2003,58 (3) : 767-775.
  • 7Adler-Nissan J. Enzymic hydrolysis of food proteins [M].Copenhagen : Elsevier Applied Science Publishers, 1986 : 57-109.
  • 8Adler-Nissan J. Enzymic hydrolysis of food proteins [M]. Copenhagen :Elsevier Applied Science Publishers, 1986 : 13-1d.
  • 9Tello P G. Enzymatic hydrolysis of whey protein: I kinetic models[J]. Biotechnology and Bioengineering, 1994,44(4) :523- 528.
  • 10Marquez Moreno M C, Fernandez Cuadrado V. Enzymic hydrolysis of vegetable proteins:Mechanism and Kinetics [J]. Process Biochemistry, 1993 (28) : 481-490.

引证文献2

二级引证文献6

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部