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Engineering of a new Escherichia coli strain efficiently metabolizing cellobiose with promising perspectives for plant biomass-based application design.


ABSTRACT: The necessity to decrease our fossil energy dependence requests bioprocesses based on biomass degradation. Cellobiose is the main product released by cellulases when acting on the major plant cell wall polysaccharide constituent, the cellulose. Escherichia coli, one of the most common model organisms for the academy and the industry, is unable to metabolize this disaccharide. In this context, the remodeling of E. coli to catabolize cellobiose should thus constitute an important progress for the design of such applications. Here, we developed a robust E. coli strain able to metabolize cellobiose by integration of a small set of modifications in its genome. Contrary to previous studies that use adaptative evolution to achieve some growth on this sugar by reactivating E. coli cryptic operons coding for cellobiose metabolism, we identified easily insertable modifications impacting the cellobiose import (expression of a gene coding a truncated variant of the maltoporin LamB, modification of the expression of lacY encoding the lactose permease) and its intracellular degradation (genomic insertion of a gene encoding either a cytosolic ?-glucosidase or a cellobiose phosphorylase). Taken together, our results provide an easily transferable set of mutations that confers to E. coli an efficient growth phenotype on cellobiose (doubling time of 2.2 ?h in aerobiosis) without any prior adaptation.

SUBMITTER: Borne R 

PROVIDER: S-EPMC7797564 | biostudies-literature | 2021 Jun

REPOSITORIES: biostudies-literature

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Engineering of a new <i>Escherichia coli</i> strain efficiently metabolizing cellobiose with promising perspectives for plant biomass-based application design.

Borne Romain R   Vita Nicolas N   Franche Nathalie N   Tardif Chantal C   Perret Stéphanie S   Fierobe Henri-Pierre HP  

Metabolic engineering communications 20201219


The necessity to decrease our fossil energy dependence requests bioprocesses based on biomass degradation. Cellobiose is the main product released by cellulases when acting on the major plant cell wall polysaccharide constituent, the cellulose. <i>Escherichia coli</i>, one of the most common model organisms for the academy and the industry, is unable to metabolize this disaccharide. In this context, the remodeling of <i>E. coli</i> to catabolize cellobiose should thus constitute an important pro  ...[more]

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