Add to ORKGDue to volatile sugar prices, the food vs fuel debate, and recent increases in the supply of natural gas, methanol has emerged as a promising feedstock for the bio-based economy. However, attempts to engineer Escherichia coli to metabolize methanol have achieved limited success. Here, we provide a rigorous systematic analysis of several potential pathway bottlenecks. We show that regeneration of ribulose 5-phosphate in E. coli is insufficient to sustain methanol assimilation, and overcome this by activating the sedoheptulose bisphosphatase variant of the ribulose monophosphate pathway. By leveraging the kinetic isotope effect associated with deuterated methanol as a chemical probe, we further demonstrate that under these conditions overall ...
Engineering Escherichia coli for efficient methanol assimilation is important for developing methano...
We constructed a reversed methylotrophic pathway that produces methanol, a promising feedstock for p...
Methylotrophic bacteria utilize methanol and other reduced one-carbon compounds as their sole source...
Due to volatile sugar prices, the food vs fuel debate, and recent increases in the supply of natural...
Due to volatile sugar prices, the food vs fuel debate, and recent increases in the supply of natural...
Papoutsakis, EleftheriosIndustrial microbial fermentation is frequently used to produce a wide array...
Electron-rich and potentially renewable, methanol is a promising alternative feedstock for chemical ...
Electron-rich and potentially renewable, methanol is a promising alternative feedstock for chemical ...
Methanol represents an attractive substrate for biotechnological applications. Utilization of reduce...
Abstract Background Methanol has attracted increased attention as a non-food alternative carbon sour...
Methanol is a liquid with high energy storage capacity that holds promise as an alternative substrat...
Engineering Escherichia coli for efficient methanol assimilation is important for developing methano...
Engineering Escherichia coli for efficient methanol assimilation is important for developing methano...
Methylotrophy is the ability of microorganisms to utilize one carbon compounds such as methane and m...
International audienceOne-carbon (C1) compounds, such as methanol, have recently gained attention as...
Engineering Escherichia coli for efficient methanol assimilation is important for developing methano...
We constructed a reversed methylotrophic pathway that produces methanol, a promising feedstock for p...
Methylotrophic bacteria utilize methanol and other reduced one-carbon compounds as their sole source...
Due to volatile sugar prices, the food vs fuel debate, and recent increases in the supply of natural...
Due to volatile sugar prices, the food vs fuel debate, and recent increases in the supply of natural...
Papoutsakis, EleftheriosIndustrial microbial fermentation is frequently used to produce a wide array...
Electron-rich and potentially renewable, methanol is a promising alternative feedstock for chemical ...
Electron-rich and potentially renewable, methanol is a promising alternative feedstock for chemical ...
Methanol represents an attractive substrate for biotechnological applications. Utilization of reduce...
Abstract Background Methanol has attracted increased attention as a non-food alternative carbon sour...
Methanol is a liquid with high energy storage capacity that holds promise as an alternative substrat...
Engineering Escherichia coli for efficient methanol assimilation is important for developing methano...
Engineering Escherichia coli for efficient methanol assimilation is important for developing methano...
Methylotrophy is the ability of microorganisms to utilize one carbon compounds such as methane and m...
International audienceOne-carbon (C1) compounds, such as methanol, have recently gained attention as...
Engineering Escherichia coli for efficient methanol assimilation is important for developing methano...
We constructed a reversed methylotrophic pathway that produces methanol, a promising feedstock for p...
Methylotrophic bacteria utilize methanol and other reduced one-carbon compounds as their sole source...