High-flux isobutanol production using engineered Escherichia coli: a bioreactor study with in situ product removal. - Wikidata - awgldk - TriplyDB

High-flux isobutanol production using engineered Escherichia coli: a bioreactor study with in situ product removal.

High-flux isobutanol production using engineered Escherichia coli: a bioreactor study with in situ product removal.

http://www.wikidata.org/entity/Q41817843

about

Fermentative production of isobutene Structure-guided engineering of Lactococcus lactis alcohol dehydrogenase LlAdhA for improved conversion of isobutyraldehyde to isobutanol Detailed structure-function correlations of Bacillus subtilis acetolactate synthase Studies on the production of branched-chain alcohols in engineered Ralstonia eutropha Metabolic engineering of Synechocystis sp. strain PCC 6803 for isobutanol production DNA microarray of global transcription factor mutant reveals membrane-related proteins involved in n-butanol tolerance in Escherichia coli Engineering Corynebacterium crenatum to produce higher alcohols for biofuel using hydrolysates of duckweed (Landoltia punctata) as feedstock Metabolic engineering of microorganisms for the production of higher alcohols Death by a thousand cuts: the challenges and diverse landscape of lignocellulosic hydrolysate inhibitors Cytosolic re-localization and optimization of valine synthesis and catabolism enables inseased isobutanol production with the yeast Saccharomyces cerevisiae Frontiers in microbial 1-butanol and isobutanol production.Catalytic Upgrading in Bacteria-Compatible Conditions via a Biocompatible Aldol Condensation.Biofuel production: an odyssey from metabolic engineering to fermentation scale-up.Enhancing E. coli isobutanol tolerance through engineering its global transcription factor cAMP receptor protein (CRP).Model-driven redox pathway manipulation for improved isobutanol production in Bacillus subtilis complemented with experimental validation and metabolic profiling analysis Expanding ester biosynthesis in Escherichia coli Metabolic engineering for the high-yield production of isoprenoid-based C₅ alcohols in E. coli.Engineering Brevibacterium flavum for the production of renewable bioenergy: C4-C5 advanced alcohols.Increased isobutanol production in Saccharomyces cerevisiae by eliminating competing pathways and resolving cofactor imbalance.Elucidation of intrinsic biosynthesis yields using 13C-based metabolism analysis.Recent progress in synthetic biology for microbial production of C3-C10 alcohols.Recent advancements in various steps of ethanol, butanol, and isobutanol productions from woody materials.Next generation biofuel engineering in prokaryotes.Metabolic engineering of strains: from industrial-scale to lab-scale chemical production.2-Keto acids based biosynthesis pathways for renewable fuels and chemicals.Synthesis of chemicals by metabolic engineering of microbes.Engineering strategy of yeast metabolism for higher alcohol production.Metabolic Engineering for Advanced Biofuels Production and Recent Advances Toward Commercialization.In silico and in vivo stability analysis of a heterologous biosynthetic pathway for 1,4-butanediol production in metabolically engineered E. coli.Characterization of nitrogen substrate limitation on Escherichia coli's growth by parameter identification tools.Current knowledge on isobutanol production with Escherichia coli, Bacillus subtilis and Corynebacterium glutamicum.Strategies for manipulation of oxygen utilization by the electron transfer chain in microbes for metabolic engineering purposes.Converting Sugars to Biofuels: Ethanol and Beyond.Engineering alternative isobutanol production platforms.Driving forces enable high-titer anaerobic 1-butanol synthesis in Escherichia coli.Isobutyraldehyde production from Escherichia coli by removing aldehyde reductase activity.Alcohol-tolerant mutants of cyanobacterium Synechococcus elongatus PCC 7942 obtained by single-cell mutant screening system.Metabolic engineering of Pichia pastoris for production of isobutanol and isobutyl acetate.Towards cell-free isobutanol production: Development of a novel immobilized enzyme system.Production of C4 and C5 branched-chain alcohols by engineered Escherichia. coli.

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P2860

High-flux isobutanol production using engineered Escherichia coli: a bioreactor study with in situ product removal.

http://www.wikidata.org/entity/Q41817843

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Applied Microbiology and Biotechnology

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James C Liao

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Kwang-Myung Cho

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P2860

Non-fermentative pathways for synthesis of branched-chain higher alcohols as biofuels

Direct photosynthetic recycling of carbon dioxide to isobutyraldehyde

The path to next generation biofuels: successes and challenges in the era of synthetic biology

Engineering Corynebacterium glutamicum for isobutanol production

Production of 2-methyl-1-butanol in engineered Escherichia coli.

Advanced biofuel production in microbes.

Biofuels and sustainability.

Engineering the isobutanol biosynthetic pathway in Escherichia coli by comparison of three aldehyde reductase/alcohol dehydrogenase genes.

Functional genomic study of exogenous n-butanol stress in Escherichia coli

The acetate switch.

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s00253-011-3173-y

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1681-1690

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