Computational-assisted protein engineering to develop thermostable and highly active catalase for industrial and biocatalytic applications

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计算辅助蛋白质工程：开发适用于工业与生物催化的耐热高活性过氧化氢酶

摘要：: Catalases are ideal biocatalysts for hydrogen peroxide removal in industrial wastewater and enzymatic processes, yet the practical application is hindered by poor thermostability. In this study, a highly active catalase was identified from Fictibacillus enclensis using a computer-assisted screening strategy. To overcome thermal instability, a computational design framework integrating ProteinMPNN-based sequence optimization with physics-based energy calculations was developed. The engineered variant, D78P/K201R/E384Y/T435A, exhibited a 1.9-fold increase in catalytic efficiency and a 4.9-fold extension of half-life at 40°C. Molecular dynamics simulations and structural analyses revealed that the mutations conferred enhanced global rigidity through stabilized hydrogen-bond networks. Moreover, the variant was employed for the treatment of industrial effluents containing hydrogen peroxide residues and the biocatalytic upgrading of glycerol. This study not only paved the way for industrial applications of catalase but also established a strategic framework for enhancing both stability and catalytic activity in enzyme engineering.

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