Abstract
Esters are widely used in plastics, textile fibers, and general petrochemicals. Usually, esters are produced via chemical synthesis or enzymatic processes from the corresponding alcohols and acids. However, the fermentative production of esters from alcohols and/or acids has recently also become feasible. Here we report a cognate microbial consortium capable of producing butyl butyrate. This microbial consortium consists of two engineered butyrate- and butanol-producing E. coli strains with nearly identical genetic background. The pathways for the synthesis of butyrate and butanol from butyryl-CoA in the respective E. coli strains, together with a lipase-catalyzed esterification reaction, created a “diamond-shaped” consortium. The concentration of butyrate and butanol in the fermentation vessel could be altered by adjusting the inoculation ratios of each E. coli strain in the consortium. After optimization, the consortium produced 7.2 g/L butyl butyrate with a yield of 0.12 g/g glucose without the exogenous addition of butanol or butyrate. To our best knowledge, this is the highest titer and yield of butyl butyrate produced by E. coli reported to date. This study thus provides a new way for the biotechnological production of esters.
Highlights
Fatty acid esters are a large group of value-added chemicals derived from short-chains alcohols and carboxylic acids
We proposed a cognate microbial consortium for butyl butyrate (BB) production, comprising butyrate- and butanol-producing E. coli strains with the same genetic background
Construction of a butyrate‐producing strain A butyrate-producing strain was constructed starting from the chromosomally engineered E. coli strain EB243, which is capable of efficiently producing butanol from glucose (Dong et al 2017)
Summary
Fatty acid esters are a large group of value-added chemicals derived from short-chains alcohols and carboxylic acids. They are present in natural sources such as flowers, fermented beverages, and in fruits (Chung et al 2015; Jenkins et al 2013). Butyl butyrate (BB) is known as a flavor and fragrance compound that is widely used in foods, beverages, perfumes, and cosmetics (Santos et al 2007). BB is an important solvent widely used in the production of plastics, fibers, and processing of petroleum products (Horton and Bennett 2006; Matte et al 2016). Like most esters (R1COOR2), BB is traditionally produced by esterification of butyrate and butanol, which is Sinumvayo et al Bioresour.
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