Team:UC Davis

From 2013.igem.org

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<h1>Welcome</h1>
<h1>Welcome</h1>
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<p><img src="" width="400" align="left"></a>Welcome to the 2013 UC Davis iGEM Wiki!<br></br>Over the summer, we created a novel class of transcription factors know as RiboTALs. They can be easily engineered to bind to any sequence of interest. By controlling RiboTALs' induction through riboswitches, we have demonstrated their ability to be regulated at the translational level. <br></br> We also created a Biobrick Characterization Data Depot for more thorough characterization of the Registry's Biobricks. We hope that future iGEM teams may use this database to better understand a Biobrick's functionality.</p>
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<p><img src="https://static.igem.org/mediawiki/2013/2/2a/IGEM_2013_Group_Photo.png" width="200" height="300" align="left"></a>Welcome to the 2013 UC Davis iGEM Wiki!<br></br>Over the summer, we created a novel class of transcription factors know as RiboTALs. They can be easily engineered to bind to any sequence of interest. By controlling RiboTALs' induction through riboswitches, we have demonstrated their ability to be regulated at the translational level. <br></br> We also created a Biobrick Characterization Data Depot for more thorough characterization of the Registry's Biobricks. We hope that future iGEM teams may use this database to better understand a Biobrick's functionality.</p>
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Revision as of 02:32, 23 September 2013

Welcome

Welcome to the 2013 UC Davis iGEM Wiki!

Over the summer, we created a novel class of transcription factors know as RiboTALs. They can be easily engineered to bind to any sequence of interest. By controlling RiboTALs' induction through riboswitches, we have demonstrated their ability to be regulated at the translational level.

We also created a Biobrick Characterization Data Depot for more thorough characterization of the Registry's Biobricks. We hope that future iGEM teams may use this database to better understand a Biobrick's functionality.

Project

Learn about how we combine riboswitches and TAL's into robust orthogonal mechanisms for inducible repression.

Notebook

See how we accomplished our goals on a day to day basis.

Team

Get to know the team members, faculty, and advisors who made this project possible.

Human Practices

Take a look at our impact on the local community as well as our contributions to our peers.