… cerevisiae for bioethanol and biobutanol production. This review focuses on the current
state of metabolic engineering of S. cerevisiae for the production of bioethanol from …

… the above metabolic engineering strategies and important milestones of n-butanol production,
and … , the cost of n-butanol production by clostridia will be reduced, making it eventually …

… This review resumes the overall challenges of producing n-butanol with the native producers,
but mostly focuses in the metabolic engineering (ME) strategies to produce n-butanol in E. …

… cerevisiae has also become the subject of study for its ability to produce n-butanol. … via a
synthetic ABE pathway is enhanced by specific metabolic engineering and butanol resistance. …

… production. Therefore, we reviewed and summarized the recent advancements … metabolic
engineering of microorganisms for butanol isomers (1-butanol and isobutanol) production…

… cerevisiae is ethanol, and isobutanol is produced at very low levels (< 1% of the theoretical
… metabolic engineering studies have been undertaken to improve isobutanol production in S…

… Further, it is economically feasible to use non-native hosts for large-scale production …
metabolic engineering have made it possible to easily create a synthetic pathway for the production …

… via a synthetic ABE pathway is enhanced by specific metabolic engineering and butanol
resistance. Biotechnol Biofuels 8:97. https://doi.org/10.1186/s13068-015-0281-4 …

… This strategy, compared to previous ones to produce n-butanol or isobutanol in a CBP with
single recombinant clostridia using lignocellulosic biomasses, presents advantages in both …

… We conducted metabolic engineering of the strains harbouring the YCplac22‐SPT15 and
YCplac22‐spt15‐3 plasmids and used them as platforms for isobutanol production. We …