Engineering inhibitor tolerance for the production of biorenewable fuels and chemicals

摘要

Metabolic Engineering has enabled the production of biorenewable fuels and chemicals from biomass using recombinant bacteria. The economic viability of these processes is often limited by inhibition of the biocatalyst by the metabolic product, such as a carboxylic acid or alcohol, or by contaminant compounds in the biomass-derived sugars, such as acetic acid or furans. Historically, selection-based methods have been used to improve biocatalyst tolerance to these inhibitors. But recently, genome-wide analysis has been used to both identify the mechanism of inhibition and reverse engineer inhibitor-tolerant strains, enabling the rational, predictive manipulation of bacteria in order to increase inhibitor tolerance. Here we review recent work in this area, particularly in relation to carboxylic acids, furfural and butanol.