Team:BYU Provo/Project

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<html><div class="prezi-player"><style type="text/css" media="screen">.prezi-player { width: 550px; } .prezi-player-links { text-align: center; }</style><object id="prezi__eixeckh-lhj" name="prezi__eixeckh-lhj" classid="clsid:D27CDB6E-AE6D-11cf-96B8-444553540000" width="550" height="400"><param name="movie" value="http://prezi.com/bin/preziloader.swf"/><param name="allowfullscreen" value="true"/><param name="allowscriptaccess" value="always"/><param name="bgcolor" value="#ffffff"/><param name="flashvars" value="prezi_id=_eixeckh-lhj&amp;lock_to_path=0&amp;color=ffffff&amp;autoplay=no&amp;autohide_ctrls=0"/><embed id="preziEmbed__eixeckh-lhj" name="preziEmbed__eixeckh-lhj" src="http://prezi.com/bin/preziloader.swf" type="application/x-shockwave-flash" allowfullscreen="true" allowscriptaccess="always" width="550" height="400" bgcolor="#ffffff" flashvars="prezi_id=_eixeckh-lhj&amp;lock_to_path=0&amp;color=ffffff&amp;autoplay=no&amp;autohide_ctrls=0"></embed></object><div class="prezi-player-links"><p><a title="BYU iGEM Team 2011 E. Colinoscopy" href="http://prezi.com/_eixeckh-lhj/final-construct/">Final Construct</a> on <a href="http://prezi.com">Prezi</a></p></div></div></html>
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==Results==
 
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<b>Thermosensor Results</b>
 
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The following table summarizes the results of the random mutagenesis on the <i>Lysteria</i> thermosensor. We found two thermosensors with narrower temperature ranges, and four thermosensors with increased or decreased expression after melting. We are especially pleased with the narrowed temperature ranges of BBa_K619890 and BBa_K619891, which demonstrate the most narrow temperature sensitivity of any known riboswitches from our literature research.
 
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{| class="TStable" style="text-align:center" align="center"
 
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|-
 
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! Part Number
 
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! Melting Range
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619889 BBa_K619889]
 
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| 30'C - 37'C
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619890 BBa_K619890]
 
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| 35'C - 37'C
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619891 BBa_K619891]
 
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| 30'C - 35'C
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619892 BBa_K619892]
 
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| 30'C - 37'C
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619893 BBa_K619893]
 
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| 30'C - 37'C
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619894 BBa_K619894]
 
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| 30'C - 37'C
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619895 BBa_K619895]
 
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| 30'C - 37'C
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619897 BBa_K619897]
 
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| Positive Control
 
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|-
 
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| [http://partsregistry.org/wiki/index.php?title=Part:BBa_K619898 BBa_K619898]
 
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| Positive Control
 
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|}
 
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<b>OxyR Promoter Results</b>
 
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Our OxyR results were inconclusive. Despite documentation in the literature about the reactive oxygen species (ROS)-inducible promoters katG, hemH and soxS, we were unable to produce consistent results demonstrating their usefulness as ROS sensors. The results of our final assay can be seen in the graphs below:
 
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3 hour readings
 
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[[File:21_Sept_3hr_results_pic.JPG|500px|center]]
 
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5 hour readings
 
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[[File:21_Sept_5hr_results_pic.JPG|500px|center]]
 
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The graphs represent (from bottom to top) the OD, the raw fluorescence, and the normalized fluorescence (fluorescence/OD). The clustered lines on the bottom of the graphs are the negative controls (empty plasmid, promoter-less GFP) and a positive control for fluorescence. The top lines are the final versions of our katG promoters controlling GFP expression. The horizontal axis is ROS concentration, which increases from left to right.
 
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As can be seen, there is no significant increase in fluorescence with increased ROS concentration.
 
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Latest revision as of 19:57, 14 October 2011

Team BYU Provo

BYU Provo
 

Contents

The Problem

X-Ray

The [http://www.cancer.org/Cancer/ColonandRectumCancer/DetailedGuide/colorectal-cancer-key-statistics American Cancer Society] has found that 1 in 20 Americans will have colorectal cancer. While current screening methods have led to a decrease in fatalities, the Society estimates another 50,000 people will die from colorectal cancers this year alone. As the disease progresses, it becomes [http://www.cancer.org/Cancer/ColonandRectumCancer/DetailedGuide/colorectal-cancer-survival-rates harder to successfully treat], making early detection important. Regular non-invasive screening could save tens of thousands of lives each year in the United States alone.


A Bioengineered Solution?

The Doctor
We think that E. coli could be engineered using simple interchangeable parts to act as an effective biosensor for colorectal cancer.

Dual-Input 'AND' Gate

We learned from the literature that polyps in the colon and rectum frequently have higher temperatures and higher concentrations of reactive oxygen species (ROS) than normal tissue. While either of these could potentially serve as an input to our biosensor, it is the elevation of both heat and ROS that makes polyps so unique in the human body. We have devised a simple molecular [http://en.wikipedia.org/wiki/AND_gate 'AND' gate] such that only in the elevated presence of both inputs will our marker protein be translated.

Visit our Modeling Page for more detailed information on the AND gate and how it works.

The Simple Interchangeable Parts

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