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A Novel Salt-Tolerant L-Glutaminase: Efficient Functional Expression, Computer-Aided Design, and Application

Hengwei Zhang, Mengkai Hu, Qing Wang, Fei Liu, Meijuan Xu, Xian Zhang, Zhiming Rao

2022Fermentation14 citationsDOIOpen Access PDF

Abstract

The low productivity in long fermentation duration and high-salt working conditions limit the application of L-glutaminase in soy sauce brewing. In this study, a novel L-glutaminase (LreuglsA) with eminent salt tolerance was mined and achieved more than 70% activity with 30% NaCl. To improve the robustness of the enzyme at different fermentation strategies, mutation LreuglsAH105K was built by a computer-aided design, and the recombinant protein expression level, an essential parameter in industrial applications, was increased 5.61-fold with the synthetic biology strategy by improving the mRNA stability. Finally, the LreuglsAH105K functional expression box was contributed to Bacillus subtilis 168 by auxotrophic complementation, and the production in a 5-L bioreactor was improved to 2516.78 ± 20.83 U mL−1, the highest production ever reported. When the immobilized cells were applied to high-salt dilute-state soy sauce brewing, the L-glutamate level was increased by 45.9%. This work provides insight into the salt-tolerant enzyme for improving the efficiency of industrial applications.

Topics & Concepts

Bacillus subtilisBrewingFermentationGlutaminaseBioreactorComplementationEnzymeFood scienceBiochemistryBiotechnologyChemistryBiologyMutantBacteriaBotanyGlutamineGeneticsGeneAmino acidPolyamine Metabolism and ApplicationsBiochemical and Molecular ResearchAmino Acid Enzymes and Metabolism
A Novel Salt-Tolerant L-Glutaminase: Efficient Functional Expression, Computer-Aided Design, and Application | Litcius