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Bacillus pumilus Cyanide Dihydratase Mutants with Higher Catalytic Activity

机译：短杆菌芽孢杆菌氰化物二水合酶突变体具有较高的催化活性

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Cyanide degrading nitrilases are noted for their potential to detoxify industrial wastewater contaminated with cyanide. However, such application would benefit from an improvement to characteristics such as their catalytic activity and stability. Following error-prone PCR for random mutagenesis, several cyanide dihydratase mutants from Bacillus pumilus were isolated based on improved catalysis. Four point mutations, K93R, D172N, A202T, and E327K were characterized and their effects on kinetics, thermostability and pH tolerance were studied. K93R and D172N increased the enzyme’s thermostability whereas E327K mutation had a less pronounced effect on stability. The D172N mutation also increased the affinity of the enzyme for its substrate at pH 7.7 but lowered its kcat. However, the A202T mutation, located in the dimerization or the A surface, destabilized the protein and abolished its activity. No significant effect on activity at alkaline pH was observed for any of the purified mutants. These mutations help confirm the model of CynD and are discussed in the context of the protein–protein interfaces leading to the protein quaternary structure.

机译：氰化物降解的腈水解酶因其具有对被氰化物污染的工业废水进行解毒的潜力而闻名。但是，这种应用将受益于诸如催化活性和稳定性之类的特性的改进。经过易错PCR随机诱变后，基于改进的催化作用，从短小芽孢杆菌中分离出了多个氰化物二水合酶突变体。表征了四个点突变，K93R，D172N，A202T和E327K，并研究了它们对动力学，热稳定性和pH耐受性的影响。 K93R和D172N增加了酶的热稳定性，而E327K突变对稳定性的影响较小。 D172N突变还增加了酶在pH 7.7下对其底物的亲和力，但降低了其kcat值。但是，位于二聚体或A表面的A202T突变使蛋白质不稳定并废除了其活性。对于任何纯化的突变体，在碱性pH下均未观察到对活性的显着影响。这些突变有助于确认CynD模型，并在导致蛋白质四级结构的蛋白质-蛋白质界面的背景下进行了讨论。

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期刊名称 other
作者
Mary A. Crum; B. Trevor Sewell; Michael J. Benedik;
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年(卷),期 -1(7),-1
年度 -1
页码 1264
总页数 10
原文格式 PDF
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关键词
cyanide dihydratase protein engineering nitrilase bioremediation protein stability;

机译：氰化物二水合酶;蛋白质工程;腈水解酶;生物修复;蛋白质稳定性;

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专利

1. 转金属硫蛋白突变体αα的烟草具有较高的重金属抗性 [J] . 张晓钰, 周慰, 茹炳根植物学报（英文版） . 2000,第004期
2. Bacillus pumilus Cyanide Dihydratase Mutants with Higher Catalytic Activity [J] . Mary A. Crum, B. Trevor Sewell, Michael J. Benedik Frontiers in Microbiology . 2016,第6期

机译：<斜视>芽孢杆菌氰化物二氢酶突变体具有更高的催化活性
3. C-terminal hybrid mutant of Bacillus pumilus cyanide dihydratase dramatically enhances thermal stability and pH tolerance by reinforcing oligomerization [J] . Crum M. A., Park J. M., Sewell B. T., Journal of applied microbiology . 2015,第4期

机译：短小芽孢杆菌氰化物二水合酶的C端杂种突变体通过增强低聚作用显着增强了热稳定性和pH耐受性
4. Residue Y70 of the Nitrilase Cyanide Dihydratase from Bacillus pumilus Is Critical for Formation and Activity of the Spiral Oligomer [J] . Park Jason M., Ponder Christian M., Sewell B. Trevor, Journal of microbiology and biotechnology . 2016,第12期

机译：短小芽孢杆菌腈水解酶氰化物二水合酶的Y70残基对螺旋寡聚物的形成和活性至关重要
5. FACTORS INVOLVED IN THE OLIGOMERISATION OF CYANIDE DIHYDRATASE FROM Bacillus pumillus C1 [C] . A. E. Mulelu, B. T. Sewell Annual Conference of the Microscopy Society of Southern Africa . 2014

机译：来自芽孢杆菌C1的氰化物二氢酶寡聚化酶的因素
6. Comparison of the catalytic activities of ricin A-chain, maize rproRIP1, maizeRIP1, and two maize rproRIP1 deletion mutants interacting with an RNA 10-mer GAGA tetraloop. [D] . Lieberman, David Victor. 2003

机译：蓖麻蛋白A链，玉米rproRIP1，maizeRIP1和两个玉米rproRIP1缺失突变体与RNA 10-mer GAGA四环相互作用的催化活性的比较。
7. Probing an Interfacial Surface in the Cyanide Dihydratase from Bacillus pumilus, A Spiral Forming Nitrilase [O] . Jason M. Park, Andani Mulelu, B. Trevor Sewell, 2020

机译：探测芽孢杆菌芽孢杆菌氰化物二水合酶的界面，螺旋形成的硝化酶
8. Bacillus Pumilus Cyanide Dihydratase Mutants with Higher Catalytic Activity [O] . Mary A Crum, B. Trevor Sewell, Michael Benedik 2016

机译：具有较高催化活性的短小芽孢杆菌氰化物二水合酶突变体

Bacillus pumilus Cyanide Dihydratase Mutants with Higher Catalytic Activity

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