2022
DOI: 10.1186/s43141-022-00384-7
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Stable, efficient, and cost-effective system for the biosynthesis of recombinant bacterial cellulose in Escherichia coli DH5α platform

Abstract: Background Owing to its remarkable mechanical properties that surpass the plant-based cellulose, bacterial cellulose production has been targeted for commercialization during the last few years. However, the large-scale production of cellulose is generally limited by the slow growth of producing strains and low productivity which ultimately makes the commercial production of cellulose using the conventional strains non cost-effective. In this study, we developed a novel plasmid-based expression… Show more

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Cited by 9 publications
(8 citation statements)
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“…Japanese scientists obtained the recombinant E. coli bacteria capable of forming BC resulting from the transfer of G. xylinus genes [ 151 ]. A new stable efficient plasmid-based expression system of recombinant BC in the E. coli DH5_ platform has currently been developed [ 152 ].…”
Section: Bacterial Cellulose-producing Bacteriamentioning
confidence: 99%
“…Japanese scientists obtained the recombinant E. coli bacteria capable of forming BC resulting from the transfer of G. xylinus genes [ 151 ]. A new stable efficient plasmid-based expression system of recombinant BC in the E. coli DH5_ platform has currently been developed [ 152 ].…”
Section: Bacterial Cellulose-producing Bacteriamentioning
confidence: 99%
“…Japanese scientists obtained the recombinant E. coli bacteria capable of forming BC resulting from the transfer of G. xylinus genes [ 68 ]. A new stable efficient plasmid-based expression system of recombinant BC in E. coli DH5α platform has currently been developed [ 69 ].…”
Section: Bc Producersmentioning
confidence: 99%
“…A better understanding of the cellulose crystallinity determinants can lead to the engineering of bacterial strains or tailored chemi-enzymatic systems for the production of optimized BC and also potentially yield tailored molecular scaffolds for increased efficiency and metabolic flux in other bacterial biosynthetic pathways. Approaches for the expression of Gluconacetobacter Bcs subunits, including BcsD and BcsH, in alternative species such as E. coli have already had some but limited success in inducing crystalline cellulose secretion recombinantly (40)(41)(42), and dissecting the underlying molecular mechanisms has the potential to greatly facilitate such bioengineering efforts. Similarly, c-di-GMP-dependent synthase activation through the enzymes' PilZ domains should be examined in the bigger picture of synthase-cortical belt interactions.…”
Section: A Revised Model For Crystalline Cellulose Secretionmentioning
confidence: 99%