… Metabolicengineering of Bacillus licheniformis for sustainable production of isobutanol. … Improving biobutanol production in engineered Saccharomycescerevisiae by manipulation …
… cerevisiae. In particular, we review the application of metabolicengineering technology in … of amino transferase, α-keto acid metabolism, acetate metabolism and carbon-nitrogen …
… On the 30 th anniversary of the founding of the discipline of metabolicengineering, this review dates back to the great milestones in achieving heterologous production of higher …
… for carbon-negative bio-manufacturing. Key research focuses include strain exploration, metabolicengineering, scale-up production, product innovation and process improvement. …
… In summary, the low tolerance of formaldehyde and butanol may limit the engineered metabolic pathways for biofuel production in E. coli. Efficient control of toxin compound through …
… Moreover, genomes of bacteriophage, Mycoplasma genitalium and Saccharomyces cerevisiae have also been successfully synthesized. In the next 50—100 years, synthetic biology …
… Furthermore, the contribution of systems biology, synthetic biology and metabolic engineering in strain development for biofuel production is discussed, with an expectation for …
… work, we review and compare various metabolic pathways and chassis cells for n-butanol … the above metabolicengineering strategies and important milestones of n-butanolproduction, …
… Abstract Metabolicengineering has been developed for over twenty years,it uses recombinant DNA … This paper reviews the application of the latest progress in metabolicengineering in …