Team:Washington/Alkanes/Future

From 2011.igem.org

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[https://2011.igem.org/Team:Washington/Alkanes/Future/FabH2 Branched Alkanes Production]
[https://2011.igem.org/Team:Washington/Alkanes/Future/FabH2 Branched Alkanes Production]
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:<nowiki> Our system is only capable of producing unbranched alkanes. However, fuel we use are also composed largely of branched alkanes that affect very important properties of the fuel such as flash point and freezing point. If our fuels are truly intended to be synthesized in bacteria, we need to work on methods of making those crucial branched chained alkanes. </nowiki>
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:<nowiki> Our system is only capable of producing unbranched alkanes, as the cell mainly utilizes straight chained fatty acids. However, fuel we use are also composed largely of branched alkanes that affect very important properties of the fuel such as flash point and freezing point. If our fuels are truly intended to be synthesized in bacteria, we need to work on methods of making those crucial branched chained alkanes. We explored FabH2, a protein that when involved in fatty acid synthesis makes branched fatty acids. </nowiki>
[https://2011.igem.org/Team:Washington/Alkanes/Future/Vector System Optimization]
[https://2011.igem.org/Team:Washington/Alkanes/Future/Vector System Optimization]

Revision as of 03:45, 16 September 2011


Our current in vivo system only efficiently makes C15 alkanes. To be efficient enough for factory production, there are two broad goals to be done: 1. increase production efficiency 2. Diversity the range of alkanes for the system. 3. Increase scale of system for industrial processes. We have already begun efforts to expand the efficiency and scope of alkane production.

Decarbonylase Redesign

One way to diversify the kind of alkanes produced is to alter the substrate specificity of the proteins involved. We decided to alter the aldehyde decarbonylase to produce shorter-chain fatty aldehydes.

Alternate Aldehyde Production

Another way to diversify our system is to use alternative proteins. Our current system uses acyl-ACP reductase, and we've identified an hypothetical alternative system that produces aldehydes: LuxCDE, made from parts from the 2010

Branched Alkanes Production

Our system is only capable of producing unbranched alkanes, as the cell mainly utilizes straight chained fatty acids. However, fuel we use are also composed largely of branched alkanes that affect very important properties of the fuel such as flash point and freezing point. If our fuels are truly intended to be synthesized in bacteria, we need to work on methods of making those crucial branched chained alkanes. We explored FabH2, a protein that when involved in fatty acid synthesis makes branched fatty acids.

System Optimization

Enzyme Localization

Alternative Chasis

UW 2011 Alkane FutureDirections A.png




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