Team:Yale/Project MAGE
From 2013.igem.org
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*The first step in applying MAGE is finding MAGE targets. This involved reading numerous scientific papers learning as much as possible about the heterologous enzymes, and the pathway that was being used to create the PLA | *The first step in applying MAGE is finding MAGE targets. This involved reading numerous scientific papers learning as much as possible about the heterologous enzymes, and the pathway that was being used to create the PLA | ||
- | + | === Enzyme Targets === | |
+ | === Pathway Engineering === | ||
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+ | [[File:Metabolic Engineering Graphic.png|800px]] | ||
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+ | <center>Figure 6: This figure shows how to design a oligo depending on which strand and which replichore the gene is located. </center><br> | ||
+ | <center>[[File:Mage3.jpg]]</center> | ||
Revision as of 16:30, 31 August 2013
Project Overview | Validate PLA synthesis | Develop bioassay | Apply MAGE | Introduce export system | Make a bioplastic |
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Contents |
Aims for the Project
- Engineer strains of E. coli to validate PLA synthesis
- Develop bioassay to screen PLA production
- Apply MAGE to optimize PLA production, guided by FBA
- Introduce type 1 secretion system to export and extract PLA
- Make a bioplastic
MAGE Targets
- The first step in applying MAGE is finding MAGE targets. This involved reading numerous scientific papers learning as much as possible about the heterologous enzymes, and the pathway that was being used to create the PLA
Enzyme Targets
Pathway Engineering
List of Papers:
Jacob et al. 1997
Matsuzaki et al. 1998
Sawers et al. 1998
Park et al. 2002
Selmer et al. 2002
Takase et al. 2002
Fong et al. 2005
Matsumoto et al. 2005
Rangarajan ES et al. 2005
Matsumoto et al. 2006
Jung et al. 2009
Matsumoto et al. 2009
Juang et al. 2010
Orth et al. 2010
Yang et al. 2011
Kandasamy et al. 2012
Yang et al. 2013