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Efficient Production of a Thermostable Mutant of Transglutaminase by <i>Streptomyces mobaraensis</i>

Jiacai Ye, Penghui Yang, Jingwen Zhou, Guocheng Du, Song Liu

2024Journal of Agricultural and Food Chemistry12 citationsDOI

Abstract

The transglutaminase (TGase) from Streptomyces mobaraensis is widely used to improve the texture of protein-based foods. However, wild-type TGase is not heat-resistant, which is unfavorable for its application. In this study, we successfully constructed a S. mobaraensis strain that can efficiently produce TGm2, a thermostable mutant of S. mobaraensis TGase. First, S. mobaraensis DSM40587 was subjected to atmospheric room temperature plasma mutagenesis, generating mutant smY2022 with a 12.2-fold increase in TGase activity. Then, based on the double-crossover recombination, we replaced the coding sequence of the TGase with that of TGm2 in smY2022, obtaining the strain smY2022-TGm2. The extracellular TGase activity of smY2022-TGm2 reached 61.7 U/mL, 147% higher than that of smY2022. Finally, the catalytic properties of TGm2 were characterized. The half-life time at 60 °C and specific activity of TGm2 reached 64 min and 71.15 U/mg, 35.6- and 2.9-fold higher than those of the wild-type TGase, respectively. As indicated by SDS-PAGE analysis, TGm2 exhibited demonstrably better protein cross-linking ability than the wild-type TGase at 70 °C, although both enzymes shared a similar ability at 40 °C. With improved enzyme production and thermal stability, smY2022-TGm2 could be a competitive strain for the industrial production of transglutaminase.

Topics & Concepts

Tissue transglutaminaseMutantEnzymeExtracellularMutagenesisWild typeStrain (injury)Specific activityBiologyBiochemistryChemistryGeneAnatomyBlood properties and coagulationEnzyme Production and CharacterizationPolysaccharides Composition and Applications