AI Article Synopsis
- Dicarboxylic acids are important chemicals used in making various products like plastics, fragrances, and medications, and there's a shift towards bio-based production due to environmental issues with petroleum sources.
- Current biosynthetic methods mainly produce even-carbon dicarboxylic acids, but there's a need for odd-carbon variations for certain industrial uses.
- The study introduces a new engineering method in E. coli that converts glucose into odd-carbon dicarboxylic acids by using a combination of enzymes from biotin and fatty acid synthesis, aiming for improved industrial production.
Article Abstract
Dicarboxylic acids are commodity chemicals used in the production of plastics, polyesters, nylons, fragrances, and medications. Bio-based routes to dicarboxylic acids are gaining attention due to environmental concerns about petroleum-based production of these compounds. Some industrial applications require dicarboxylic acids with specific carbon chain lengths, including odd-carbon species. Biosynthetic pathways involving cytochrome P450-catalyzed oxidation of fatty acids in yeast and bacteria have been reported, but these systems produce almost exclusively even-carbon species. Here we report a novel pathway to odd-carbon dicarboxylic acids directly from glucose in Escherichia coli by employing an engineered pathway combining enzymes from biotin and fatty acid synthesis. Optimization of the pathway will lead to industrial strains for the production of valuable odd-carbon diacids.
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| http://dx.doi.org/10.1021/jacs.6b11895 | DOI Listing |
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