Team:Washington/Alkanes/Methods

From 2011.igem.org

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INSERT INFO HERE... LOOK AT OTHER PAGES FOR EXAMPLES OF FORMATING AND INSERTING PICTURES.  CLICK THE EDIT BUTTON ON THE UPPER LEFT SIDE OF THE PAGE AFTER YOU HAVE SIGNED IN.
INSERT INFO HERE... LOOK AT OTHER PAGES FOR EXAMPLES OF FORMATING AND INSERTING PICTURES.  CLICK THE EDIT BUTTON ON THE UPPER LEFT SIDE OF THE PAGE AFTER YOU HAVE SIGNED IN.
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In order to produce alkanes, we need both Acyl-ACP Reductase and Aldehyde Decarbonylase to work together in the cells, which is the basic system.
=Building a Perfect Alkane Production System=
=Building a Perfect Alkane Production System=
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Our goal is not only to build a system that produces alkane, but also to modify the whole system on producing shorter length of alkanes, higher yield of production of alkanes, higher quality of alkanes (branched alkanes), etc. In order to achieve all these, we have groups work on six different directions: system optimization, alternative chassis, decarbonylase redesign, alternative aldehyde, enzyme localization, branched alkanes.
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Our goal is not only to build a system that produces alkane with Acyl-ACP Reductase and Aldehyde Decarbonylase, but also to modify the whole system on producing shorter length of alkanes, higher yield of production of alkanes, higher quality of alkanes (branched alkanes), etc. In order to achieve all these, we have groups work on six different directions: system optimization, alternative chassis, decarbonylase redesign, alternative aldehyde, enzyme localization, branched alkanes.
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==System Optimization==
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Single plasmid vs. double plasmid.
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==alternative chassis==
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The idea of alternative chassis is to run the basic system on different types vectors.
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==decarbonylase redesign==
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==alternative aldehyde==
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==enzyme localization==
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==Engineering of Acyl-ACP Reductase and Aldehyde Decarbonylase==
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==branched alkanes==
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In order to produce alkanes, we need both Acyl-ACP Reductase and Aldehyde Decarbonylase to work together in the cells.
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Revision as of 23:56, 11 September 2011

INSERT INFO HERE... LOOK AT OTHER PAGES FOR EXAMPLES OF FORMATING AND INSERTING PICTURES. CLICK THE EDIT BUTTON ON THE UPPER LEFT SIDE OF THE PAGE AFTER YOU HAVE SIGNED IN.

In order to produce alkanes, we need both Acyl-ACP Reductase and Aldehyde Decarbonylase to work together in the cells, which is the basic system.

Contents

Building a Perfect Alkane Production System

Our goal is not only to build a system that produces alkane with Acyl-ACP Reductase and Aldehyde Decarbonylase, but also to modify the whole system on producing shorter length of alkanes, higher yield of production of alkanes, higher quality of alkanes (branched alkanes), etc. In order to achieve all these, we have groups work on six different directions: system optimization, alternative chassis, decarbonylase redesign, alternative aldehyde, enzyme localization, branched alkanes.

System Optimization

Single plasmid vs. double plasmid.

alternative chassis

The idea of alternative chassis is to run the basic system on different types vectors.

decarbonylase redesign

alternative aldehyde

enzyme localization

branched alkanes