Team:Cornell/testing/project/wetlab/4/7

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Revision as of 03:30, 4 October 2012

Wet Lab
Overview
Chassis
DNA Assembly
- Arsenic Reporter
- Salicylate Reporter
Testing & Results
Future Work
Animation

Name	Type	Description	Designer	Length
BBa_K957000	Generator	Arsenic inducible mtrB with cut sites flanking RBS	Dylan Patrick Webster	2625
BBa_K957001	Generator	Arsenic inducible mtrB	Dylan Patrick Webster	2704
BBa_K957002	Generator	Salicylate inducible mtrB with cut sites flanking RBS	Dylan Patrick Webster	3207
BBa_K957003	Generator	Salicylate inducible mtrB	Dylan Patrick Webster	3284
BBa_K957004	Coding	nah Operon for degradation of naphthalene to salicylate	Dylan Patrick Webster	9409
BBa_K957005	Generator	Constitutive expression of nah Operon for degradation of naphthalene to salicylate	Dylan Patrick Webster	9452
BBa_K957006	Composite	Constitutive expression of nah Operon with oriT	Dylan Patrick Webster	9831

iGEM012 Cornell

First Lessons Learned: Control Reactors

In order to enhance the field-deployability of our final device, we initially decided to feed our reactors with LB, since a very concentrated LB source fed at a low flow rate could sustain our field reactors for extended periods of time without taking up much physical space. However, upon setting up control reactors—both in batch and continuous flow operation—we discovered that wild type S. oneidensis MR-1 produced significantly less current when fed with LB than M4—a commonly used media for Shewanella-inoculated bioelectrochemical systems.

Naphthalene & Salicylate Sensing

First characterized naphthalene sensors with salicylate, since our system indirectly senses naphthalene via salicylate.
Uninduced salicylate reporter produces same current as MR-1 in rich M4 media.
First attempt to diagnose problem: Switch to minimal M4... Producing higher current, but we're still not getting a salicylate response.
Next attempt: Poise the working electrode at a higher potential in attempt to get more MtrC and MtrA for MtrB to associate with. Didn't quite do the trick either.

Arsenic Sensing

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 			<div class="row">
 				<div class="twelve columns">
-					<h2 class="centered">Reactor Testing</h2>
+					<table class=" pgrouptable tablesorter" style="width: 100%;" cellpadding="0" cellspacing="0">
+<thead>
+<tr><th style="width:8px" class="header"></th><th style="width:8px" class="header"></th><th style="width:8px" class="header"></th><th style="width: 87px;" class="header">Name</th><th style="width: 80px" colspan="" class="header">Type</th><th style="width: auto;" colspan="" class="header">Description</th><th style="width: 150px" colspan="" class="header">Designer</th><th style="width: 50px" colspan="" class="header">Length</th>
+</tr></thead><tbody>
+<tr>
+<td class="status_cell heart13">&nbsp;</td><td class="status_cell cell_white">&nbsp;</td><td class="status_cell cell_white">&nbsp;&nbsp;</td><td><a class="noul_link" href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K957000">BBa_K957000</a></td><td>Generator</td><td>Arsenic inducible mtrB with cut sites flanking RBS</td><td width="100px">Dylan Patrick Webster</td><td align="right">2625</td>
+</tr>
+<tr>
+<td class="status_cell heart13">&nbsp;</td><td class="status_cell cell_white">&nbsp;</td><td class="status_cell cell_white">&nbsp;&nbsp;</td><td><a class="noul_link" href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K957001">BBa_K957001</a></td><td>Generator</td><td>Arsenic inducible mtrB</td><td width="100px">Dylan Patrick Webster</td><td align="right">2704</td>
+</tr>
+<tr>
+<td class="status_cell heart13">&nbsp;</td><td class="status_cell cell_white">&nbsp;</td><td class="status_cell cell_white">&nbsp;&nbsp;</td><td><a class="noul_link" href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K957002">BBa_K957002</a></td><td>Generator</td><td>Salicylate inducible mtrB with cut sites flanking RBS </td><td width="100px">Dylan Patrick Webster</td><td align="right">3207</td>
+</tr>
+<tr>
+<td class="status_cell heart13">&nbsp;</td><td class="status_cell cell_white">&nbsp;</td><td class="status_cell cell_white">&nbsp;&nbsp;</td><td><a class="noul_link" href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K957003">BBa_K957003</a></td><td>Generator</td><td>Salicylate inducible mtrB</td><td width="100px">Dylan Patrick Webster</td><td align="right">3284</td>
+</tr>
+<tr>
+<td class="status_cell heart13">&nbsp;</td><td class="status_cell cell_white">&nbsp;</td><td class="status_cell cell_white">&nbsp;&nbsp;</td><td><a class="noul_link" href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K957004">BBa_K957004</a></td><td>Coding</td><td>nah Operon for degradation of naphthalene to salicylate</td><td width="100px">Dylan Patrick Webster</td><td align="right">9409</td>
+</tr>
+<tr>
+<td class="status_cell heart13">&nbsp;</td><td class="status_cell cell_white">&nbsp;</td><td class="status_cell cell_white">&nbsp;&nbsp;</td><td><a class="noul_link" href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K957005">BBa_K957005</a></td><td>Generator</td><td> Constitutive expression of nah Operon for degradation of naphthalene to salicylate </td><td width="100px">Dylan Patrick Webster</td><td align="right">9452</td>
+</tr>
+<tr>
+<td class="status_cell  "></td><td class="status_cell cell_white">&nbsp;</td><td class="status_cell cell_white">&nbsp;</td><td><a class="noul_link" href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K957006">BBa_K957006</a></td><td>Composite</td><td>Constitutive expression of nah Operon with oriT </td><td width="100px">Dylan Patrick Webster</td><td align="right">9831</td>
+</tr>
+</tbody>
+</table>
 				</div>
 			</div>
 			<div class="row" id="item1">
 				<div class="nine columns">
-					<h3>Overview of Characterization in Bioelectrochemical Stystems</h3>
+					<groupparts>iGEM012 Cornell</groupparts>
-					As described in the <a href="https://2012.igem.org/Team:Cornell/testing/project/wetlab/2">Chassis</a> section, <i>S. oneidensis</i> MR-1 is capable of shuttling electrons through the Mtr pathway to reduce Fe(III) to Fe(II) because of the negative free energy change associated with the redox reaction. Thus, to encourage <i>Shewanella</i> to transfer electrons to an electrode, we poise the redox potential of an electrode to that of Fe(III)/Fe(II) in a three electrode system, controlled by a potentiostat. [[LINK TO THE PAGE ON THE POTENTIOSTAT]]. In short, this instrument works by setting the potential of a working electrode (WE) with respect to a Ag/AgCl reference eletrode (RE) by injecting current through a counter electrode (CE). These electrodes can be seen in the schematic representation of our single-compartment bioelectrochemical reactors shown below.
 				</div>
 				<div class="three columns">