Team:UT Dallas/Project4

From 2012.igem.org

(Difference between revisions)
 
(One intermediate revision not shown)
Line 33: Line 33:
</div>
</div>
<div id='middle_box'>
<div id='middle_box'>
-
<div id='st_1'><center><h2 class='title' style="margin-bottom: 18px;margin-top: 7px;">N Populations</h2></center>
+
<div id='st_1'><center><h2 class='title' style="margin-bottom: 18px;margin-top: 7px;">Tool Kit for Populations</h2></center>
</div>
</div>
<div id='st_2'>
<div id='st_2'>
Line 41: Line 41:
<ul style='list-style: none outside none;'>
<ul style='list-style: none outside none;'>
   <li class='st_list' onclick="show_project_info('oscillator')">N Populations</li>
   <li class='st_list' onclick="show_project_info('oscillator')">N Populations</li>
-
   <li class='st_list' onclick="show_project_info('oscillator_design')">Design</li>
+
   <li class='st_list' onclick="show_project_info('npopulation_toolkit')">Toolkit</li>
-
  <li class='st_list' onclick="show_project_info('oscillator_results')">Data/Results</li>
+
-
  <li class='st_list' onclick="show_project_info('oscillator_biobricks')">Biobricks</li>
+
-
  <li class='st_list' onclick="show_project_info('oscillator_future_dir')">Future Direction</li>
+
</ul>
</ul>
</td>
</td>
-
<td id='st_right' valign='top'>An oscillator is a system that repeatedly goes back and forth about a specific value to achieve an equilibrium. Many think of an oscillator as being a physical system such as a pendulum or a clock, but oscillators are also repeatedly found in biological systems. Biological oscillators are characterized by a positive and negative feedback loop.
+
<td id='st_right' valign='top'>In order to further aid the future competitors of iGem, we have included this distributive computing tool kit. This tool kit includes the biobricks that we have used in all of our projects that allowed us to build our multi-population systems. It is a foundation for all competitors to use in order to build a system of populations, whether it be one population, two populations or “n” number of populations. The toolkit is organized for easy access and understanding. All of the biobricks are organized by function. These categories include: intermediate, receiver, reporter, repressor, signalling and repressor.</td>
-
For our oscillator, we created three different strains. These strains used three different quorum sensing molecules AHL, AI1, and AI2 coupled with yellow, red, and blue fluorescence proteins to create an oscillating effect.</td>
+
</tr>
</tr>
</table>
</table>

Latest revision as of 03:50, 4 October 2012

Tool Kit for Populations

  • N Populations
  • Toolkit
 In order to further aid the future competitors of iGem, we have included this distributive computing tool kit. This tool kit includes the biobricks that we have used in all of our projects that allowed us to build our multi-population systems. It is a foundation for all competitors to use in order to build a system of populations, whether it be one population, two populations or “n” number of populations. The toolkit is organized for easy access and understanding. All of the biobricks are organized by function. These categories include: intermediate, receiver, reporter, repressor, signalling and repressor.
Retrieved from "http://2012.igem.org/Team:UT_Dallas/Project4"