Dual Enhancement of Thermostability and Activity of Xylanase through Computer-Aided Rational Design

热稳定性 合理设计 木聚糖酶 对偶(语法数字) 生化工程 化学 材料科学 纳米技术 工程类 生物化学 艺术 文学类
作者
Meizi Lu,Zhihong Li,Hui Zhuang,Shuanghao Yang,Xingchu Zhao,Ruirui Feng,Haoyu Shen,Andrey Kovalevsky,Shengkai Zhang,Zaipeng Xie,Xin Li,Qirong Shen,Qun Wan
出处
期刊:ACS Sustainable Chemistry & Engineering [American Chemical Society]
卷期号:12 (41): 15114-15124 被引量:11
标识
DOI:10.1021/acssuschemeng.4c04974
摘要

In the realm of enzyme engineering, the dual enhancement of thermostability and activity remains a challenge. Herein, we employed a computer-aided approach integrating folding free energy calculations and evolutionary analysis to engineer Paecilomyces thermophila xylanase into a hyperthermophilic enzyme for application in the paper and pulp industry. Through the computational rational design, XynM9 with superior thermostability and enhanced activity was designed. Its optimal reaction temperature increases by 10 °C to 85 °C, its Tm increases by 10 °C to 93 °C, and its half-life increases 11-fold to 5.8 h. Additionally, its catalytic efficiency improves by 57% to 3926 s–1 mM–1. Molecular dynamics simulations revealed that XynM9 is stabilized by more hydrogen bonds and salt bridges than wild-type xylanase. The mutant’s narrower catalytic cleft enhances the substrate-binding affinity, thus improving the catalytic efficiency. In harsh conditions at 80 °C and pH 10, using XynM9 significantly reduced both hemicellulose and lignin, which makes it a good candidate for use in the paper and pulp process. Our study presents an accurate and efficient strategy for the dual enhancement of enzyme properties, guiding further improvement of computational tools for protein stabilization.
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