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Biofilm-Mediated Immobilization of a Multienzyme Complex for Accelerating Inositol Production from Starch

Meixia Liu, Pingping Han, Lingling Zhang, Chao Zhong, Chun You

2021Bioconjugate Chemistry20 citationsDOI

Abstract

Bacterial biofilm, as a natural and renewable material, is a promising architecture for enzyme immobilization. In this study, we have demonstrated the feasibility of an Escherichia coli biofilm to immobilize a self-assembly multienzyme complex by the covalent interaction between a peptide SpyTag and its protein partner SpyCatcher. The SpyTag-labeled biofilm is displayed on the surface of E. coli by overexpressing the recombinant CsgA–SpyTag, in which CsgA is capable of forming biofilms. This SpyTag bearing biofilm is used to bind with SpyCatcher bearing synthetic mini-scaffoldin, which also contains a carbohydrate-binding module 3 (CBM3), and four different cohesins from different microorganisms. CBM3 was used to bind with cellulose, while the four different cohesins were used to recruit four dockerin-containing cascade enzymes, which were subsequently applied to convert starch to myo-inositol. Compared to the free enzyme mixture, the biofilm-immobilized enzyme complex exhibited a 4.28 times increase in initial reaction rate in producing myo-inositol from 10 g/L maltodextrin (a derivative of starch). Additionally, this biofilm-immobilized enzyme complex showed much higher recycle ability than the enzyme complex which was immobilized on a regenerated amorphous cellulose (RAC) system. In conclusion, the biofilm-mediated immobilization of the enzymatic biosystem provides a promising strategy to increase the reaction rate and enhance the stability of an in vitro enzymatic biosystem, exhibiting high potential to improve the efficiency of an in vitro biosystem.

Topics & Concepts

BiofilmChemistryEnzymeBiochemistryCellulaseMaltodextrinCelluloseEscherichia coliThermotoga maritimaBacteriaChromatographyBiologySpray dryingGeneGeneticsBiochemical and Structural CharacterizationTransgenic Plants and ApplicationsMonoclonal and Polyclonal Antibodies Research
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