1. Academic Validation
  2. Selective production of decanoic acid from iterative reversal of β-oxidation pathway

Selective production of decanoic acid from iterative reversal of β-oxidation pathway

  • Biotechnol Bioeng. 2018 May;115(5):1311-1320. doi: 10.1002/bit.26540.
Seohyoung Kim 1 Ramon Gonzalez 1 2
Affiliations

Affiliations

  • 1 Department of Chemical and Biomolecular Engineering, Rice University, Houston, Texas.
  • 2 Department of Bioengineering, Rice University, Houston, Texas.
Abstract

Decanoic acid is a valuable compound used as precursor for industrial chemicals, pharmaceuticals, and biofuels. Despite efforts to produce it from renewables, only limited achievements have been reported. Here, we report an engineered cell factory able to produce decanoic acid as a major product from glycerol, and abundant and renewable feedstock. We exploit the overlapping chain-length specificity of β-oxidation reversal (r-BOX) and thioesterase Enzymes to selectively generate decanoic acid. This was achieved by selecting r-BOX Enzymes that support the synthesis of acyl-CoA of up to 10 carbons (thiolase BktB and enoyl-CoA reductase EgTER) and a thioesterase that exhibited high activity toward decanoyl-CoA and longer-chain acyl-CoAs (FadM). Combined chromosomal and episomal expression of r-BOX core Enzymes such as enoyl-CoA reductase and thiolase (in the presence of E. coli thioesterase FadM) increased titer and yield of decanoic acid, respectively. The carbon flux toward decanoic acid was substantially increased by the use of an organic overlay, which decreased its intracellular accumulation and presumably increased its concentration gradient across cell membrane, suggesting that decanoic acid transport to the extracellular medium might be a major bottleneck. When cultivated in the presence of a n-dodecane overlay, the final engineered strain produced 2.1 g/L of decanoic acid with a yield of 0.1 g/g glycerol. Collectively, our data suggests that r-BOX can be used as a platform to selectively produce decanoic acid and its derivatives at high yield, titer and productivity.

Keywords

carbon elongation; decanoic acid; fatty acids; metabolic engineering; reversal β-oxidation.

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