生物法生产丙烯酰胺过程中腈水合酶的抑制和失活

›› 2005, Vol. 5 ›› Issue (2): 193-196.

生物法生产丙烯酰胺过程中腈水合酶的抑制和失活

高毅,刘铭,曹竹安

清华大学化工系生物化工研究所

出版日期:2005-04-20 发布日期:2005-04-20

Inhibition and Deactivation of Nitrile Hydratase in the Production of Acrylamide

GAO Yi,LIU Ming,CAO Zhu-an

Inst. Biochem. Eng., Dept. Chem. Eng., Tsinghua University

Online:2005-04-20 Published:2005-04-20

摘要/Abstract

摘要： 为改进生物法生产丙烯酰胺工艺，研究了腈水合酶催化丙烯腈水合生产丙烯酰胺过程中影响腈水合酶反应速率和酶失活的因素. 实验证明，水合过程中体系pH值的变化基本不影响酶反应速率；底物丙烯腈的浓度低于10 g/L时，酶反应速率与底物浓度成正比，大于75 g/L后，对酶有抑制作用；产物丙烯酰胺显著抑制腈水合酶的活性；菌体细胞内可能存在可以稳定腈水合酶的物质，胞内的腈水合酶在40℃下的半衰期可以达到59.9 h；丙烯酰胺与温度的协同作用是腈水合酶失活的重要原因.

关键词: 丙烯酰胺, 腈水合酶, 失活

Abstract: In order to improve the production of acrylamide (AM), the main effects of pH, temperature, substrate concentration and product concentration on the deactivation of nitrile hydratase (NHase) in the process of biotransformation from acrylonitrile (AN) were investigated. The results indicate that in the process of hydration, system pH value changes from 7 to 8, while NHase reaction velocity remains almost stable in this range. NHase reaction velocity increases with AN concentration when it is below 10 g/L, and NHase is in-hibited when the concentration is above 75 g/L. The product acrylamide could inhibit NHase greatly. Cells were observed slowing resis-tance to thermal deactivation in the process of catalysis, and the half life time of intracellular NHase was as long as 59.9 h. At the same time, the synergistic effect of acrylamide and heat was also an important reason for the deactivation of NHase.

Key words: acrylamide, nitrile hydratase, deactivation

高毅;刘铭;曹竹安. 生物法生产丙烯酰胺过程中腈水合酶的抑制和失活[J]. , 2005, 5(2): 193-196.

GAO Yi;LIU Ming;CAO Zhu-an. Inhibition and Deactivation of Nitrile Hydratase in the Production of Acrylamide[J]. , 2005, 5(2): 193-196.

[1]	马江雅施军杨志程付雪付坤孙永军张源林. 响应面法优化PAC与CPAM复配处理模拟废水[J]. 过程工程学报, 2017, 17(1): 130-137.
[2]	武文粉李会泉包炜军戚春萍. V2O5?WO3/TiO2烟气脱硝催化剂失活前后元素的赋存特征[J]. 过程工程学报, 2016, 16(5): 794-801.
[3]	吴江王雨薛天艳曲景奎刘然潘春跃孙小龙. 氧氯化锆生产中转型料酸解与絮凝脱硅过程[J]. , 2013, 13(6): 986-991.
[4]	郭艳华戴惠新杨俊龙. 不同絮凝剂对高泥氧化铜浸出液沉降的影响[J]. , 2013, 13(5): 812-816.
[5]	孙林刘春萍戚旻熠刘军深刘希光崔振忠. 多胺-DAAM功能化PVC树脂对4-氯苯酚的吸附特性[J]. , 2012, 12(5): 770-775.
[6]	杜秀娟曹吉林陈学青赵建军. 聚丙烯酰胺-钠基复合膨润土合成及其吸附铅离子性能[J]. , 2012, 12(2): 324-329.
[7]	王博文任天瑞董亚明. 黄鳝血清转铁蛋白的提取及表征[J]. , 2012, 12(1): 125-130.
[8]	胡大成高加俭贾春苗平原贾丽华王莹利许光文古芳娜苏发兵. 甲烷化催化剂及反应机理的研究进展[J]. , 2011, 11(5): 880-893.
[9]	刘虎朱严瑾易昌凤徐祖顺. 树枝状大分子/聚(N-异丙基丙烯酰胺)纳米粒子的制备[J]. , 2008, 8(6): 1245-1248.
[10]	孙瑞丰;罗晖;于慧敏;沈忠耀. 人血红蛋白分子印迹聚合物的制备及分子识别性能[J]. , 2005, 5(3): 341-344.
[11]	向兰;王唐;吴庆流;金涌. 氢氧化镁在聚丙烯酰胺体系中的聚沉行为[J]. , 2005, 5(1): 58-61.
[12]	刘铭;李春;黄晔;高毅. 极端条件驯化法提高腈水合酶产生菌的丙烯酰胺耐受性[J]. , 2004, 4(3): 250-255.