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枯草杆菌蛋白酶BPN'冷适应性中正向涉及的131位完整氨基酸替换。

The complete amino acid substitutions at position 131 that are positively involved in cold adaptation of subtilisin BPN'.

作者信息

Taguchi S, Komada S, Momose H

机构信息

Department of Biological Science and Technology, Science University of Tokyo, 2641 Yamazaki, Noda, Chiba 278-8510, Japan.

出版信息

Appl Environ Microbiol. 2000 Apr;66(4):1410-5. doi: 10.1128/AEM.66.4.1410-1415.2000.

Abstract

To ascertain whether position 131 of a mesophilic protease, subtilisin BPN', is a potential critical site for cold adaptation as screened by evolutionary engineering (S. Taguchi, A. Ozaki, and H. Momose, Appl. Environ. Microbiol. 64:492-495, 1998), a full set of subtilisin BPN' mutants with mutations at position 131 was constructed by site-saturation mutagenesis. All mutated enzymes were measured for specific activity at 10 degrees C by the quantitative titer microplate assay system using polyclonal antibody against subtilisin BPN' and a synthetic chromogenic substrate. All the mutants exhibited proteolytic activities almost the same as or higher than that of the wild-type enzyme, suggesting that position 131 may be important for cold adaptation. In comparison with the wild type, purified mutants G131F, G131R, G131M, and G131W were found to acquire proteolytic activities (k(cat)/K(m)) at 10 degrees C that were 150, 94, 84, and 50% higher, respectively. In particular, for the G131F mutant, temperature dependency in enzyme activity was shown by an increase in k(cat) and a decrease in K(m). All of these amino acid substitution mutants, G131F, G131R, G131M, and G131W, acquired increased proteolytic activities at 10 degrees C for three different synthetic peptide substrates but no increase in caseinolytic activity. Furthermore, they all conferred thermolability on the enzyme to differing extents in terms of the half-life of enzyme inactivation at 60 degrees C. No significant correlation was found between the amino acids preferred for cold adaptation surveyed here and those present at position 131 of subtilisin of psychrophilic cells naturally occurring in cold environments. Based on these findings, position 131 is a contributor in artificial evolution for acquiring a cold-active character and may not be related to physiological requirements for subtilisin-producing cells living in cold environments. Therefore, saturation mutagenesis would be effective in achieving rapid improvement in protein properties via evolutionary engineering.

摘要

为了确定嗜温蛋白酶枯草杆菌蛋白酶BPN'的第131位是否是通过进化工程筛选出的冷适应性潜在关键位点(S. Taguchi、A. Ozaki和H. Momose,《应用与环境微生物学》64:492 - 495,1998),通过位点饱和诱变构建了一组在第131位发生突变的枯草杆菌蛋白酶BPN'突变体。使用抗枯草杆菌蛋白酶BPN'的多克隆抗体和合成生色底物,通过定量滴度微孔板测定系统测量所有突变酶在10℃下的比活性。所有突变体的蛋白水解活性几乎与野生型酶相同或高于野生型酶,这表明第131位可能对冷适应性很重要。与野生型相比,纯化的突变体G131F、G131R、G131M和G131W在10℃下的蛋白水解活性(k(cat)/K(m))分别提高了150%、94%、84%和50%。特别是对于G131F突变体,酶活性的温度依赖性表现为k(cat)增加和K(m)降低。所有这些氨基酸替代突变体G131F、G131R、G131M和G131W在10℃下对三种不同的合成肽底物的蛋白水解活性均有所增加,但酪蛋白水解活性没有增加。此外,就酶在60℃下失活的半衰期而言,它们都不同程度地赋予了酶热不稳定性。在此调查的冷适应性偏好氨基酸与自然存在于寒冷环境中的嗜冷细胞枯草杆菌蛋白酶第131位的氨基酸之间未发现显著相关性。基于这些发现,第131位是人工进化中获得冷活性特征的一个因素,可能与生活在寒冷环境中的枯草杆菌蛋白酶产生细胞的生理需求无关。因此,饱和诱变对于通过进化工程快速改善蛋白质特性将是有效的。

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