Team:UIUC-Illinois/Project/Design

From 2012.igem.org

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                     <li><a name="des2" >YFP Reporter</a></li>
                     <li><a name="des2" >YFP Reporter</a></li>
                     <li><a name="des3" >Non-Specific Control</a></li>
                     <li><a name="des3" >Non-Specific Control</a></li>
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                     <li><a name="des4" >Theoretical Results</a></li>
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                     <li><a name="des4" >Reliability experiments</a></li>
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                    <li><a name="des5" >Theoretical Results</a></li>
             </div>
             </div>
                  
                  
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<center><h2>Experimental Design</h2></center>
<center><h2>Experimental Design</h2></center>
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<p>In designing our project we based our quantitative tests on fluorescence measured by a plate fluorescence reader. Our constructs were created in ways that best suit providing evidence for our hypothesis of the PUF-PIN fusion protein showing endonuclease activity. Generally, our results were collected from quantifying two main PUF-PIN fusion protein types, a wild type and a mutant type, in different conditions. These two fusion proteins had recognition sites that differed by one base pair. <br/><br/> Click on the list to the left to read about each of our constructs and why we decided to do them.</p>
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<p>In designing our project we based our quantitative tests on fluorescence measured by a plate fluorescence reader. Our constructs were created in ways that best suit providing evidence for our hypothesis of the PUF-PIN fusion protein showing endonuclease activity. Generally, our results were collected from quantifying two main PUF-PIN fusion protein types, a wild type and a mutant type, in different conditions. These two fusion proteins had recognition sites that differed by one base pair. <br/><br/> Click on the list to the left to read about each of our constructs and why we decided to do them. All expressions were done in vivo with the DH5a strain of E.Coli on pBAD30 or Protet plasmids.</p>
<div id="des0" style="display:none">
<div id="des0" style="display:none">
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<div id="des3" style="display:none">
<div id="des3" style="display:none">
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<center><h2>Non-Specific Control Experiments</h2></center>
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<center><h2>Non-Specific Binding Control Experiments</h2></center>
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<div id="des4" style="display:none">
<div id="des4" style="display:none">
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<center><h2>Reliability Experiments</h2></center><br/>
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<p>In order to eliminate the possibility of confounding factors affecting our apparent results, PUF-PIN experimental results were further reinforced with tests designed to consider other factors of our constructs possibly affecting our quantitative and qualitative measurements. Along with basic experiments testing our proposed constructs we also tested several controls relative to each of the different pieces of our constructs including:<br/><br/>
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<table border=1>
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  <tbody>
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    <tr>
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      <td>DH5a E. Coli alone</td>
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      <td>Measure the base fluorescence of DH5a and ensure our strain does not have contaminating fluorescence.</td>
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    </tr>
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    <tr>
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      <td>Protet plasmid</td>
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      <td>Measure the base fluorescence of a plasmid we used.</td>
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    </tr>
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    <tr>
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      <td>YFP + Control Binding Site</td>
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      <td>This is a theoretically uninhibited YFP + binding site construct to determine the fluorescence of using YFP with a control binding site.</td>
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    </tr>
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    <tr>
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      <td>YFP + Specific Binding Site</td>
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      <td>Also a theoretically uninhibited YFP + binding site construct to determine the fluorescence of using YFP with a specific binding site</td>
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    </tr>
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    <tr>
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      <td>YFP + Control Binding Site + pBAD30 Plasmid</td>
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      <td>This determines the effects of a pBAD30 Plasmid when used with a YFP + Control Binding Site.</td>
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    </tr>
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    <tr>
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      <td>YFP + Specific Binding Site + pBAD30 Plasmid</td>
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      <td>This determines the effects of a pBAD30 Plasmid when used with a YFP + Specific Binding Site.</td>
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    </tr>
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    <tr>
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      <td>YFP + Specific Binding Site + wild type PUF-PIN</td>
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      <td>This is a theoretically negative fluorescence control due to the endonuclease activity of a specifically bound PUF-PIN protein silencing the YFP gene.</td>
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    </tr>
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    <tr>
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      <td>YFP + Control Binding Site + wild type PUF-PIN</td>
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      <td>This is a theoretically negative fluorescence control due to the activity of a Control Binding Site bound PUF-PIN protein silencing the YFP gene.</td>
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    </tr>
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  </tbody>
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</table>
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<br/><br/>
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</p>
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<div id="des5" style="display:none">
<center><h2>Theoretical Results</h2></center><br/>
<center><h2>Theoretical Results</h2></center><br/>

Revision as of 05:28, 29 September 2012

Header

Project Design

Project Design

  • Overview
  • PUF+PIN Fusion
  • YFP Reporter
  • Non-Specific Control
  • Reliability experiments
  • Theoretical Results
  • Experimental Design


    In designing our project we based our quantitative tests on fluorescence measured by a plate fluorescence reader. Our constructs were created in ways that best suit providing evidence for our hypothesis of the PUF-PIN fusion protein showing endonuclease activity. Generally, our results were collected from quantifying two main PUF-PIN fusion protein types, a wild type and a mutant type, in different conditions. These two fusion proteins had recognition sites that differed by one base pair.

    Click on the list to the left to read about each of our constructs and why we decided to do them. All expressions were done in vivo with the DH5a strain of E.Coli on pBAD30 or Protet plasmids.

    Retrieved from "http://2012.igem.org/Team:UIUC-Illinois/Project/Design"