1. 2-O-α-D-glucosyl glycerol production by whole-cell biocatalyst of lactobacilli encapsulating sucrose phosphorylase with improved glycerol affinity and conversion rate.
- Author
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Cui Y, Xu Z, Yue Y, Kong W, Kong J, and Guo T
- Subjects
- Lactobacillus enzymology, Lactobacillus metabolism, Lactobacillus genetics, Bacterial Proteins metabolism, Bacterial Proteins genetics, Bifidobacterium enzymology, Bifidobacterium genetics, Bifidobacterium metabolism, Limosilactobacillus reuteri enzymology, Limosilactobacillus reuteri genetics, Glucosyltransferases metabolism, Glucosyltransferases genetics, Glycerol metabolism, Biocatalysis, Glucosides metabolism, Glucosides biosynthesis
- Abstract
Background: 2-O-α-D-glucosyl glycerol (2-αGG) is a valuable ingredient in cosmetics, health-care and food fields. Sucrose phosphorylase (SPase) is a favorable choice for biosynthesis of 2-αGG, while its glucosyl-acceptor affinity and thermodynamic feature remain largely unknown, limiting 2-αGG manufacturing., Results: Here, three SPases were obtained from lactobacilli and bifidobacteria, and the one encoded by Lb. reuteri SDMCC050455 (LrSP) had the best transglucosylation ability, with 2-αGG accounting for 86.01% in the total product. However, the LrSP exhibited an initial forward reaction rate of 11.83/s and reached equilibrium of 56.90% at 110 h, indicating low glycerol affinity and conversion rate. To improve catalytic efficiency, the LrSP was overexpressed in Lb. paracasei BL-SP, of which the intracellular SPase activity increased by 6.67-fold compared with Lb. reuteri SDMCC050455. After chemically permeabilized with Triton X-100, the whole-cell biocatalysis of Lb. paracasei BL-SP was prepared and showed the highest activity, with the initial forward reaction rate improved to 50.17/s and conversion rate risen to 80.79% within 17 h. Using the whole-cell biocatalyst, the final yield of 2-αGG was 203.21 g/L from 1 M sucrose and 1 M glycerol., Conclusion: The food grade strain Lb. paracasei was used for the first time as cell factory to recombinantly express the LrSP and construct a whole-cell biocatalyst for the production of 2-αGG. After condition optimization and cell permeabilization, the whole-cell biocatalyst exhibited 23.89% higher equilibrium conversion and 9.10-fold of productivity compared with the pure enzyme catalytic system. This work would provide a reference for large-scale bioprocess of 2-αGG., Competing Interests: Declarations Ethics approval and consent to participate This article did not involve any experiment on human participants or animals. Consent for publication Not applicable. Competing interests The authors declare no competing interests., (© 2024. The Author(s).)
- Published
- 2024
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