Virginia/Projects/1
From 2007.igem.org
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We have designed a metabolic system capable of cellulose degradation and light metabolism in order to power the biosynthesis of butanol fuel. This hybrid molecular engine is built from standard biological parts and may be used in future designs in order to drive forward cellular chemistry. | We have designed a metabolic system capable of cellulose degradation and light metabolism in order to power the biosynthesis of butanol fuel. This hybrid molecular engine is built from standard biological parts and may be used in future designs in order to drive forward cellular chemistry. | ||
- | [[Image:VGEM 2007 metabolic pathway.jpg|800px]] | + | <center>[[Image:VGEM 2007 metabolic pathway.jpg|800px]]</center> |
- | [[Image:VGEM 2007 BioBrick table.jpg|800px]] | + | <center>[[Image:VGEM 2007 BioBrick table.jpg|800px]]</center> |
- | [[Image:VGEM 2007 biobrick construction strategy.jpg|800px]] | + | <center>[[Image:VGEM 2007 biobrick construction strategy.jpg|800px]]</center> |
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===References=== | ===References=== | ||
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Revision as of 21:14, 26 October 2007
HOME | PROJECT INTRO | APPROACH | PROCEDURES | RESULTS | [http://partsregistry.org/cgi/partsdb/pgroup.cgi?pgroup=iGEM2007&group=Virginia BIOBRICKS] | [http://openwetware.org/wiki/IGEM:VGEM/2007/Notebook eNOTEBOOK] | [http://www.seas.virginia.edu/VGEM/ WEBSITE] |
Harvesting Cellulose and Light to Power Butanol Biosynthesis
Send comments to George McArthur
Approach
We have designed a metabolic system capable of cellulose degradation and light metabolism in order to power the biosynthesis of butanol fuel. This hybrid molecular engine is built from standard biological parts and may be used in future designs in order to drive forward cellular chemistry.