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. 2013 Jan 18;2(1):59-62.
doi: 10.1021/sb300061x. Epub 2012 Sep 26.

Expanding the product profile of a microbial alkane biosynthetic pathway

Matthew Harger  1 Lei ZhengAustin MoonCasey AgerJu Hye AnChris ChoeYi-Ling LaiBenjamin MoDavid ZongMatthew D SmithRobert G EgbertJeremy H MillsDavid BakerIngrid Swanson PultzJustin B Siegel
Affiliations

Expanding the product profile of a microbial alkane biosynthetic pathway

Matthew Harger et al. ACS Synth Biol. .

Abstract

Microbially produced alkanes are a new class of biofuels that closely match the chemical composition of petroleum-based fuels. Alkanes can be generated from the fatty acid biosynthetic pathway by the reduction of acyl-ACPs followed by decarbonylation of the resulting aldehydes. A current limitation of this pathway is the restricted product profile, which consists of n-alkanes of 13, 15, and 17 carbons in length. To expand the product profile, we incorporated a new part, FabH2 from Bacillus subtilis , an enzyme known to have a broader specificity profile for fatty acid initiation than the native FabH of Escherichia coli . When provided with the appropriate substrate, the addition of FabH2 resulted in an altered alkane product profile in which significant levels of n-alkanes of 14 and 16 carbons in length are produced. The production of even chain length alkanes represents initial steps toward the expansion of this recently discovered microbial alkane production pathway to synthesize complex fuels. This work was conceived and performed as part of the 2011 University of Washington international Genetically Engineered Machines (iGEM) project.

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Figures

Figure 1
Figure 1
Gas chromatograms of alkane production in E. coli BL21(DE3) cells expressing AAR and ADC, FabH2, or both enzymes. Cultures were supplemented with 6.5 mM propanoate as indicated. Peak identities were confirmed by spectral comparison to the NIST spectral database as well by comparison of elution time to that of known product standards.
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