Team:Washington/Alkanes/Background
From 2011.igem.org
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A recent study(cite) has shown production of alkanes(the main component of gasoline) in ""E. coli"" by introducing two genes native to cyanobacteria, Acyl-ACP Reductase(AAR), and Aldehyde Decarbonylase(ADC). AAR reduces Acyl-ACPs( intermediates in fatty acid biosynthesis) into the corresponding long-chain fatty aldehyde. This aldehyde acts as a substrate for ADC, which removes the aldehyde's carbonyl group, yielding Formate and an alkane one carbon shorter than the original Acyl-ACP. | A recent study(cite) has shown production of alkanes(the main component of gasoline) in ""E. coli"" by introducing two genes native to cyanobacteria, Acyl-ACP Reductase(AAR), and Aldehyde Decarbonylase(ADC). AAR reduces Acyl-ACPs( intermediates in fatty acid biosynthesis) into the corresponding long-chain fatty aldehyde. This aldehyde acts as a substrate for ADC, which removes the aldehyde's carbonyl group, yielding Formate and an alkane one carbon shorter than the original Acyl-ACP. | ||
- | [[File:Washington_DC_AAR_diagram.gif|center| | + | [[File:Washington_DC_AAR_diagram.gif|center|300px|thumb|Diagram showing alkane production using ADC and AAR]] |
Revision as of 03:45, 3 September 2011
A recent study(cite) has shown production of alkanes(the main component of gasoline) in ""E. coli"" by introducing two genes native to cyanobacteria, Acyl-ACP Reductase(AAR), and Aldehyde Decarbonylase(ADC). AAR reduces Acyl-ACPs( intermediates in fatty acid biosynthesis) into the corresponding long-chain fatty aldehyde. This aldehyde acts as a substrate for ADC, which removes the aldehyde's carbonyl group, yielding Formate and an alkane one carbon shorter than the original Acyl-ACP.