Add to ORKGClimate change necessitates the development of CO2 neutral or negative routes to chemicals currently produced from fossil carbon. In this paper we demonstrate a pathway from the renewable resource glucose to next generation biofuel isopentanol by pairing the isovaleryl-CoA biosynthesis pathway from Myxococcus xanthus and a butyryl-CoA reductase from Clostridium acetobutylicum. The best plasmid and Escherichia coli strain combination makes 80.50 ± 8.08 (SD) mg/L of isopentanol after 36 h under microaerobic conditions with an oleyl alcohol overlay. In addition, the system also shows a strong preference for isopentanol production over prenol in microaerobic conditions. Finally, the pathway requires zero adenosine triphosphate and can be paired...
Clostridium acetobutylicum was metabolically engineered to produce a biofuel consisting of an isopro...
Biomass recalcitrance—resistance to degradation—currently limits the use of lignocellulose for biofu...
Isobutene (2-methylpropene) is one of those chemicals for which bio-based production might replace t...
Climate change necessitates the development of CO2 neutral or negative routes to chemicals currently...
2-methylpropan-1-ol (isobutanol) is a leading candidate biofuel for the replacement or supplementati...
Alleviating our society’s dependence on petroleum-based chemicals has been highly emphasized due to ...
Abstract Background With concerns about depletion of fossil fuel and environmental pollution, synthe...
Man-made photovoltaic device is relatively efficient in converting sunlight to electricity, but the ...
Metabolism represents at least three and a half billion years of research and development in chemica...
The diminishing of fossil fuels and growing concerns towards climate change have intensified biofuel...
Concerns over climate change have led to increased interest in renewable fuels in recent years. Micr...
Global climate change, caused by the emission of greenhouse gas (GHG) to the atmosphere, is one of t...
Papoutsakis, EleftheriosThe mass production of biofuels and chemicals through microbial fermentation...
As climate change has become one of the major global risks, our heavy dependence on petroleum-derive...
Abstract Background Interests in renewable fuels have exploded in recent years as the serious effect...
Clostridium acetobutylicum was metabolically engineered to produce a biofuel consisting of an isopro...
Biomass recalcitrance—resistance to degradation—currently limits the use of lignocellulose for biofu...
Isobutene (2-methylpropene) is one of those chemicals for which bio-based production might replace t...
Climate change necessitates the development of CO2 neutral or negative routes to chemicals currently...
2-methylpropan-1-ol (isobutanol) is a leading candidate biofuel for the replacement or supplementati...
Alleviating our society’s dependence on petroleum-based chemicals has been highly emphasized due to ...
Abstract Background With concerns about depletion of fossil fuel and environmental pollution, synthe...
Man-made photovoltaic device is relatively efficient in converting sunlight to electricity, but the ...
Metabolism represents at least three and a half billion years of research and development in chemica...
The diminishing of fossil fuels and growing concerns towards climate change have intensified biofuel...
Concerns over climate change have led to increased interest in renewable fuels in recent years. Micr...
Global climate change, caused by the emission of greenhouse gas (GHG) to the atmosphere, is one of t...
Papoutsakis, EleftheriosThe mass production of biofuels and chemicals through microbial fermentation...
As climate change has become one of the major global risks, our heavy dependence on petroleum-derive...
Abstract Background Interests in renewable fuels have exploded in recent years as the serious effect...
Clostridium acetobutylicum was metabolically engineered to produce a biofuel consisting of an isopro...
Biomass recalcitrance—resistance to degradation—currently limits the use of lignocellulose for biofu...
Isobutene (2-methylpropene) is one of those chemicals for which bio-based production might replace t...