Engineering clostridia for butanol production from biorenewable resources: from cells to process integration.

Renewable feedstocks such as lignocellulosic biomass, CO 2 and syngas are readily available and low cost but difficult to ferment. There are microbes that can utilize cellulose or gases to produce ethanol and organic acids as major products, but few can produce n -butanol in a significant amount. Metabolic engineering can be applied to both cellulolytic and acetogenic clostridia to produce n -butanol directly from cellulose and CO 2 . In addition, co-culturing these engineered microbes can utilize cellulose directly and CO 2 , produced via the fermentation, in an integrated process for butanol fermentation and recovery. This review focuses on the development of consolidated bioprocessing (CBP) using engineered clostridia for n -butanol production from biorenewable resources such as lignocellulosic biomass and CO 2 . [ABSTRACT FROM AUTHOR]

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