期刊
ACS SYNTHETIC BIOLOGY
卷 5, 期 3, 页码 200-206出版社
AMER CHEMICAL SOC
DOI: 10.1021/acssynbio.5b00201
关键词
biobased plastics; medium-chain omega-hydroxy fatty acids; medium-chain alpha,omega-dicarboxylic acids; alcohol dehydrogenase; aldehyde dehydrogenase; nylon-6,12
资金
- Defense Advanced Research Projects Agency [D13AP00038]
- Natural Science Foundation [MCB1453147]
- Washington University
- Direct For Biological Sciences
- Div Of Molecular and Cellular Bioscience [1453147] Funding Source: National Science Foundation
In search of sustainable approaches to plastics production, many efforts have been made to engineer microbial conversions of renewable feedstock to short-chain (C2-C8) bifunctional polymer precursors (e.g., succinic acid, cadaverine, 1,4-butanediol). Less attention has been given to medium-chain (C12-C14) monomers such as omega-hydroxy fatty acids (omega-OHFAs) and alpha,omega-dicarboxylic acids (alpha,omega-DCAs), which are precursors to high performance polyesters and polyamides. Here we engineer a complete microbial conversion of glucose to C12 and C14 omega-OHFAs and alpha,omega-DCAs, with precise control of product chain length. Using an expanded bioinformatics approach, we screen a wide range of enzymes across phyla to identify combinations that yield complete conversion of intermediates to product alpha,omega-DCAs. Finally, through optimization of culture conditions, we enhance production titer of C12 alpha,omega-DCA to nearly 600 mg/L. Our results indicate potential for this microbial factory to enable commercially relevant, renewable production of C12 alpha,omega-DCA a valuable precursor to the high-performance plastic, nylon-6,12.
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