Team:UIUC-Illinois

From 2012.igem.org

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<h1>PROJECT PUF</h1>
<h1>PROJECT PUF</h1>
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         <p>This project is focused on creating and optimizing a construct for the production and customization of the PUM protein. In doing so, our team is looking to standardize the method in which the RNA binding protein can be used as a toolkit in Biobrick format. With a toolkit we hope to produce utility with biological parts while following the philosophies of engineering. This toolkit will then be used in various ways to further control distinct aspects of anything involving RNA.
         <p>This project is focused on creating and optimizing a construct for the production and customization of the PUM protein. In doing so, our team is looking to standardize the method in which the RNA binding protein can be used as a toolkit in Biobrick format. With a toolkit we hope to produce utility with biological parts while following the philosophies of engineering. This toolkit will then be used in various ways to further control distinct aspects of anything involving RNA.
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<h1>PROJECT PHAT</h1>
<h1>PROJECT PHAT</h1>
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         <p>The project dubbed "PHAT" has its focus on a metabolite of the widely studied chemical, Resveratrol. The metabolite of Resveratrol, Piceatannol has recently been discovered to have unique properties which can be heavily utilized in pharmaceutical industires. Our team seeks to integrate the disciplines of synthetic biology with aspects of chemical engineering to find efficient ways to produce and improve upon Piceatannol.
         <p>The project dubbed "PHAT" has its focus on a metabolite of the widely studied chemical, Resveratrol. The metabolite of Resveratrol, Piceatannol has recently been discovered to have unique properties which can be heavily utilized in pharmaceutical industires. Our team seeks to integrate the disciplines of synthetic biology with aspects of chemical engineering to find efficient ways to produce and improve upon Piceatannol.
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Revision as of 06:39, 23 May 2012

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PROJECT PUF

This project is focused on creating and optimizing a construct for the production and customization of the PUM protein. In doing so, our team is looking to standardize the method in which the RNA binding protein can be used as a toolkit in Biobrick format. With a toolkit we hope to produce utility with biological parts while following the philosophies of engineering. This toolkit will then be used in various ways to further control distinct aspects of anything involving RNA.

PROJECT PHAT

The project dubbed "PHAT" has its focus on a metabolite of the widely studied chemical, Resveratrol. The metabolite of Resveratrol, Piceatannol has recently been discovered to have unique properties which can be heavily utilized in pharmaceutical industires. Our team seeks to integrate the disciplines of synthetic biology with aspects of chemical engineering to find efficient ways to produce and improve upon Piceatannol.

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