生物学杂志

生物学杂志 ›› 2020, Vol. 37 ›› Issue (2): 24-.doi: 10.3969/j.issn.2095-1736.2020.02.024

• 研究报告 • 上一篇    下一篇

糖苷水解酶GH97家族成员PspAG97A的催化机制分析

  

  1. 安徽大学 生命科学学院 现代生物制造安徽省重点实验室安徽省微生物与生物催化工程技术研究中心, 合肥 230601
  • 出版日期:2020-04-18 发布日期:2020-04-17
  • 通讯作者: 何超,副教授,研究方向微生物酶学,E-mail: chaohe@ahu.edu.cn;肖亚中,教授,研究方向微生物生化,E-mail: yzxiao@ahu.edu.cn
  • 作者简介:张小敏,硕士研究生,研究方向基因工程,E-mail: zhangxm19@126.com
  • 基金资助:
    国家自然科学基金项目(31570064)

Catalytic mechanism analysis of glycoside hydrolase GH97 family member PspAG97A

  1. Anhui Key Laboratory of Modern Biomanufacturing, Anhui Provincial Engineering Technology Research Center of Microorganisms and Biocatalysis, School of Life Sciences, Anhui University, Hefei 230601, China
  • Online:2020-04-18 Published:2020-04-17

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摘要: 糖苷水解酶GH97家族是一个特殊的家族,同时拥有反转和保留两种催化类型成员,其两种催化类型如何分化目前还不清楚。对GH97家族成员PspAG97A的催化机制进行分析,通过高效液相色谱法检测水解产物异头物的构型,根据在不同酶反应时间所检测到的α-葡萄糖与β-葡萄糖的比例变化,证明PspAG97A执行反转催化机制。通过结构分析与定点突变等方法尝试对PspAG97A的催化类型进行改造,将PspAG97A与同一家族成员BtGH97b(保留型)活性中心进行叠加比较,仿照保留类型的催化装置对相关位点G407、E377及E456进行单点突变和联合突变。结果显示突变酶活力相比野生型显著下降,并分析了相关位点的作用。研究加深了对PspAG97A催化机制的认识,为GH97家族两种催化类型进化关系的研究奠定基础。

关键词: 糖苷水解酶GH97家族, 催化机制, 定点突变

Abstract: The glycoside hydrolase GH97 family is a unique family that contains both inverting and retaining members. It is unclear how the two catalytic mechanisms differentiate. The catalytic mechanism of PspAG97A, a member of GH97 family, was analyzed. It was proved that PspAG97A performs the inverting catalytic mechanism according to the ratio change of α-glucose and β-glucose produced by the enzyme at different reaction time detected through high performance liquid chromatography. We tried to change the inverting catalytic mechanism of PspAG97A to retaining by structural analysis and site-directed mutagenesis. The active site of PspAG97A was superimposed with that of BtGH97b belonging to the GH97 retaining subfamily, and the related sites G407, E377, E456 and chloride ion binding site R171 of PspAG97A were subjected to single point mutations and combined mutations to follow the catalytic device for the retaining type. The results showed that the activities of the mutants decreased significantly compared to the wild-type. We then analyzed the function of relevant residues. The above research not only deepens the understanding of the catalytic mechanism of PspAG97A, but also lays the foundation for the evolutionary relationship of two catalytic mechanisms within the GH97 family.

Key words: glycoside hydrolase family 97, catalytic mechanism, site-directed mutagenesis

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