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Team:UC Chile
From 2013.igem.org
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<div id="Project Description" style="background-color:#666666;border:5px solid black;color:#ffffff;margin:25px;"> | <div id="Project Description" style="background-color:#666666;border:5px solid black;color:#ffffff;margin:25px;"> | ||
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| - | <div style="text-align:center;font-weight:bold;font-size:20px;text-decoration:underline">Project Description</div | + | <div style="text-align:center;font-weight:bold;font-size:20px;text-decoration:underline;padding:20px;">Project Description</div> |
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<div style="text-align:justify;font-size:15px;padding:20px;"> | <div style="text-align:justify;font-size:15px;padding:20px;"> | ||
| - | We are working towards reengineering the Carboxysome, a bacterial microcompartment (BMC), to produce a genetically encoded platform for optimized packaging of metabolic processes and/or enclosed protein production systems. | + | We are working towards reengineering the Carboxysome, a bacterial microcompartment (BMC), to produce a genetically encoded platform for optimized packaging of metabolic processes and/or enclosed protein production systems.<br> |
| - | In order to do so, we are developing new biobricks for targeting any protein of interest to the inside of Carboxysomes. We are estimating the structure and volume of the Carboxysome to assess and maximize production yields. Moreover, we are developing a novel bacterial microcompartment isolation method adapting existing technologies to easily purify reengineered Carboxysomes while maintaining their structural and functional properties.<br>Our project should facilitate novel applications using cellular or acellular systems for the compartmentalization of metabolic engineering reactions as well as providing a toolbox for safe and efficient production of biomolecules in bacterial systems. | + | In order to do so, we are developing new biobricks for targeting any protein of interest to the inside of Carboxysomes. We are estimating the structure and volume of the Carboxysome to assess and maximize production yields. Moreover, we are developing a novel bacterial microcompartment isolation method adapting existing technologies to easily purify reengineered Carboxysomes while maintaining their structural and functional properties.<br> |
| + | Our project should facilitate novel applications using cellular or acellular systems for the compartmentalization of metabolic engineering reactions as well as providing a toolbox for safe and efficient production of biomolecules in bacterial systems. | ||
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Revision as of 23:53, 9 August 2013
We are working towards reengineering the Carboxysome, a bacterial microcompartment (BMC), to produce a genetically encoded platform for optimized packaging of metabolic processes and/or enclosed protein production systems.
In order to do so, we are developing new biobricks for targeting any protein of interest to the inside of Carboxysomes. We are estimating the structure and volume of the Carboxysome to assess and maximize production yields. Moreover, we are developing a novel bacterial microcompartment isolation method adapting existing technologies to easily purify reengineered Carboxysomes while maintaining their structural and functional properties.
Our project should facilitate novel applications using cellular or acellular systems for the compartmentalization of metabolic engineering reactions as well as providing a toolbox for safe and efficient production of biomolecules in bacterial systems.
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