部分暴露的N端缬氨酸残基在多极端条件下稳定芽孢杆菌属NG-27的GH10木聚糖酶中的关键作用。

The critical role of partially exposed N-terminal valine residue in stabilizing GH10 xylanase from Bacillus sp.NG-27 under poly-extreme conditions.

作者信息

Bhardwaj Amit, Leelavathi Sadhu, Mazumdar-Leighton Sudeshna, Ghosh Amit, Ramakumar Suryanarayanarao, Reddy Vanga S

机构信息

International Centre for Genetic Engineering and Biotechnology, Aruna Asaf Ali Marg, New Delhi, India.

出版信息

PLoS One. 2008 Aug 26;3(8):e3063. doi: 10.1371/journal.pone.0003063.

DOI:10.1371/journal.pone.0003063

PMID:18725971

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2516601/

Abstract

BACKGROUND

Understanding the mechanisms that govern protein stability under poly-extreme conditions continues to be a major challenge. Xylanase (BSX) from Bacillus sp. NG-27, which has a TIM-barrel structure, shows optimum activity at high temperature and alkaline pH, and is resistant to denaturation by SDS and degradation by proteinase K. A comparative circular dichroism analysis was performed on native BSX and a recombinant BSX (R-BSX) with just one additional methionine resulting from the start codon. The results of this analysis revealed the role of the partially exposed N-terminus in the unfolding of BSX in response to an increase in temperature.

METHODOLOGY

We investigated the poly-extremophilicity of BSX to deduce the structural features responsible for its stability under one set of conditions, in order to gain information about its stability in other extreme conditions. To systematically address the role of the partially exposed N-terminus in BSX stability, a series of mutants was generated in which the first hydrophobic residue, valine (Val1), was either deleted or substituted with various amino acids. Each mutant was subsequently analyzed for its thermal, SDS and proteinase K stability in comparison to native BSX.

CONCLUSIONS

A single conversion of Val1 to glycine (Gly) changed R-BSX from being thermo- and alkali- stable and proteinase K and SDS resistant, to being thermolabile and proteinase K-, alkali- and SDS- sensitive. This result provided insight into the structure-function relationships of BSX under poly-extreme conditions. Molecular, biochemical and structural data revealed that the poly-extremophilicity of BSX is governed by a partially exposed N-terminus through hydrophobic interactions. Such hitherto unidentified N-terminal hydrophobic interactions may play a similar role in other proteins, especially those with TIM-barrel structures. The results of the present study are therefore of major significance for protein folding and protein engineering.

摘要

背景

了解在多种极端条件下控制蛋白质稳定性的机制仍然是一项重大挑战。来自芽孢杆菌属NG-27的木聚糖酶（BSX）具有TIM桶状结构，在高温和碱性pH条件下表现出最佳活性，并且对SDS变性和蛋白酶K降解具有抗性。对天然BSX和仅因起始密码子而多一个甲硫氨酸的重组BSX（R-BSX）进行了比较圆二色性分析。该分析结果揭示了部分暴露的N端在温度升高时BSX展开过程中的作用。

方法

我们研究了BSX的多极端嗜性，以推断在一组条件下负责其稳定性的结构特征，从而获取其在其他极端条件下稳定性的信息。为了系统地研究部分暴露的N端在BSX稳定性中的作用，构建了一系列突变体，其中第一个疏水残基缬氨酸（Val1）被删除或用各种氨基酸替代。随后将每个突变体与天然BSX进行比较，分析其热稳定性、SDS稳定性和蛋白酶K稳定性。

结论

将Val1单一转换为甘氨酸（Gly）使R-BSX从热稳定和碱稳定、抗蛋白酶K和SDS，变为热不稳定且对蛋白酶K、碱和SDS敏感。这一结果为多极端条件下BSX的结构-功能关系提供了见解。分子、生化和结构数据表明，BSX的多极端嗜性由部分暴露的N端通过疏水相互作用控制。这种迄今未被识别的N端疏水相互作用可能在其他蛋白质中发挥类似作用，尤其是那些具有TIM桶状结构的蛋白质。因此，本研究结果对蛋白质折叠和蛋白质工程具有重要意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9cc8/2516601/816971f3d3e0/pone.0003063.g001.jpg

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部分暴露的N端缬氨酸残基在多极端条件下稳定芽孢杆菌属NG-27的GH10木聚糖酶中的关键作用。

The critical role of partially exposed N-terminal valine residue in stabilizing GH10 xylanase from Bacillus sp.NG-27 under poly-extreme conditions.

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出版信息

BACKGROUND

METHODOLOGY

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