Difference between revisions of "Team:Aix-Marseille/Protocols2"

 
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                         </button>
 
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                         <a href="/Team:Aix Marseille" class="navbar-brand hidden-lg hidden-md hidden-sm" ><http://i.imgur.com/oHSATfM.png" class="img-responsive" width="80" height="80"></a>
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                                     <li  ><a href="/Team:Aix-Marseille">Home</a></li>
 
                                     <li  ><a href="/Team:Aix-Marseille">Home</a></li>
 
                                       <li class="dropdown " id="dropdown"><a href="#" class="dropdown-toggle"  data-toggle="dropdown">Project</a>
 
                                       <li class="dropdown " id="dropdown"><a href="#" class="dropdown-toggle"  data-toggle="dropdown">Project</a>
 
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                                         <li ><a href="/Team:Aix-Marseille/Description">Overview</a></li>
+
                                         <li ><a href="/Team:Aix-Marseille/Project/Description">Overview</a></li>
 
                                         <li ><a href="/Team:Aix-Marseille/Design">Project design</a></li>
 
                                         <li ><a href="/Team:Aix-Marseille/Design">Project design</a></li>
 
                                         <li ><a href="/Team:Aix-Marseille/Parts">Parts</a></li>                                   
 
                                         <li ><a href="/Team:Aix-Marseille/Parts">Parts</a></li>                                   
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                                         <li ><a href="/Team:Aix-Marseille/Notebook2">Calendar</a></li>
 
                                         <li ><a href="/Team:Aix-Marseille/Notebook2">Calendar</a></li>
 
                                         <li ><a href="/Team:Aix-Marseille/Measurement">Results</a></li>
 
                                         <li ><a href="/Team:Aix-Marseille/Measurement">Results</a></li>
                                         <li ><a href="/Team:Aix-Marseille/Protocols2">Protocols2</a></li>
+
                                         <li ><a href="/Team:Aix-Marseille/Protocols2">Protocols</a></li>
 
                                         <li ><a href="/Team:Aix-Marseille/Sequencing/data">Sequencing data</a></li>                                   
 
                                         <li ><a href="/Team:Aix-Marseille/Sequencing/data">Sequencing data</a></li>                                   
 
                                       </ul>
 
                                       </ul>
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                                       </ul>     
 
                                       </ul>     
 
                                     </li>
 
                                     </li>
                        
+
                       <li class="dropdown " id="dropdown"><a href="/Team:Aix-Marseille/Achievement" class="dropdown-toggle"  data-toggle="dropdown">Achievement</a></li>
 
                                   </li>
 
                                   </li>
  
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     </header>
 
     </header>
 
  
  
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<div class="col-md-6 left">
 
<div class="col-md-6 left">
    <div align="center"><h2 class="title wow bounce in up"><span style="color:#8E3B8C"><span style="font-family:Armalite Rifle"> Don't you ever step on a sticky chewing-gum ?!</div>
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<img src="https://static.igem.org/mediawiki/2015/2/2c/Constre%26%C3%A9.png" width="475" height="325">
</h2></span></span>
+
<img src="https://static.igem.org/mediawiki/2015/9/92/Idqfdf.png" class="img-responsive" width="475" height="325">
    <div class="space30"></div>
+
<p class="space20"><div align="justify"><span style ="font-family:Courier New">For each construction the biobricks corresponding is RBS (B0034), GFP (E0040) and Terminator (B0010-B0012)<br/>
    <p class="space20"><div align="justify"><span style ="font-family:Courier New">Nowadays, chewing gum is the second urban pollutant after cigarette butts. To clean chewing gum, specific engines are used but they are heavy and expensive. The time required for its use is long and they need a large quantity of water. Besides economical aspects, chewing gums have an environmental impact. They are dangerous for the wildlife such as birds. Indeed, believing that it is bread, they eat chewing gums and choke. Regarding these alarming facts, we have decided to create a new environmentally- responsible way to sanitize our streets.
+
All the construction was introduced in the plasmid PSB1C3 and cloning in <i>E.Coli</i> DH5α</p>
</div></p></span>
+
</div>
<p class="space20"><div align="justify"><span style ="font-family:Courier New">Chewing gum pollution is a real problem. From sidewalks to under your desk at school, chewing gums are everywhere!</div></p></span>
+
  
 
</div>
 
</div>
    </div>
+
</div>
 
+
</div>
+
 
</div>
 
</div>
 
<br />
 
<br />
 
<div class="container">
 
<div class="container">
   <button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo9">PCR protocol with EconoTaq PLUS 2X</button>
+
   <button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo9">Cell culture</button>
 
   <div id="demo9" class="collapse">
 
   <div id="demo9" class="collapse">
 
<br />
 
<br />
Take the EconoTaq PLUS 2X Master Mix only when all your tubes are ready and keep it on ice all the
+
Day 1: Streak on plates clones containing constructions.<br/>  
time you need it.<br />
+
Day 2: Starters were prepared in 3 mL LB media. One colony of each construction was inoculated. We did biological triplicates.Starters were incubated during 16-18 hours at 300 rpm and 37°C with shaking. <br/>
Add the EconoTaq PLUS 2X Master Mix at the end, when your tubes contain all the other
+
Day 3: Measurement<br/>
  
components..<br />
+
                     
 
+
<table>
+
  <tr>
+
      <td></td>
+
      <td>25 µL Reaction</td>
+
      <td>50 µL Reaction</td>
+
      <td>100 µL Reaction</td>
+
      <td>Final concentration</td>
+
  </tr>
+
  <tr>
+
      <td>EconoTaq PLUS 2X Master Mix</td>
+
      <td>12.5 µL</td>
+
      <td>25 µL</td>
+
      <td>50 µL</td>
+
      <td>1X</td>
+
  </tr>
+
  <tr>
+
      <td>Forward Primer (100 pmol/µL)</td>
+
      <td>0.5 µl</td>
+
      <td>0.5 µL</td>
+
      <td>1 µL</td>
+
      <td>1 pmol/µL (1µM)</td>
+
  </tr>
+
  <tr>
+
      <td>Reverse Primer (100 pmol/µL) </td>
+
      <td>0.5 µL</td>
+
      <td>0.5 µL</td>
+
      <td>1 µL</td>
+
      <td>1 pmol/µL (1µM)</td>
+
  </tr>
+
  <tr>
+
      <td>DNA Template*</td>
+
      <td>0.5 µL</td>
+
      <td>1 µL</td>
+
      <td>1 µL</td>
+
      <td></td>
+
  </tr>
+
  <tr>
+
      <td>Water nuclease-free </td>
+
      <td>11 µL</td>
+
      <td>23 µL</td>
+
      <td>47 µL</td>
+
      <td></td>
+
  </tr>
+
</table>
+
<p>*One colony in 50 µL of Water.15-20 min at 80°C. 5 min at 96°C.</p><br />
+
<br />
+
<table>
+
<tr>
+
<td>Cycling Step</td>
+
<td>Temperature</td>
+
<td>Time</td>
+
<td>Number of cycles</td>
+
</tr>
+
<tr>
+
<td>Initial denaturation</td>
+
<td>98°C</td>
+
<td>3 min</td>
+
<td>1</td>
+
</tr>
+
<tr>
+
<td>Denaturation</td>
+
<td>95°C</td>
+
<td>10 sec</td>
+
<td>X 27</td>
+
</tr>
+
<tr>
+
<td>Annealing</td>
+
<td>50-65°C</td>
+
<td>40 sec</td>
+
<td>X 27</td>
+
</tr>
+
<tr>
+
<td>Extension</td>
+
<td>72°C</td>
+
<td>1 min/kb</td>
+
<td>X 27</td>
+
</tr>
+
<tr>
+
<td>Hold</td>
+
<td>16°C</td>
+
<td>Indefinitely</td>
+
<td></td>
+
</tr>
+
</table>
+
                               
+
 
     </div>
 
     </div>
 
</div>
 
</div>
 
<br />
 
<br />
 
<div class="container">
 
<div class="container">
<button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo10">PCR protocol with Q5 High Fidelity DNA Polymerase</button>
+
<button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo10">TECAN</button>
 
   <div id="demo10" class="collapse">
 
   <div id="demo10" class="collapse">
<br />
+
<br/>
Take the Q5 High Fidelity DNA Polymerase only when all your tubes are ready and keep it on ice all
+
1)Calibration: Dilution of Atto488 in triplicates with PBS1X and LB<br/><br/>
the time you need it.<br />
+
2) Preparation samples<br/><br/>
Add the Q5 High Fidelity DNA Polymerase at the end, when your tubes contain all the other. <br />  
+
&nbsp; Each construction was biologically triplicate.<br/>&nbsp; OD of each sample was adjusted at 0.5 diluted into LB media (0.475< OD <0.525).<br/>&nbsp; 200µl of each sample were put into a 96-wells plate. &nbsp; A triplicate of the measure was also done for each biological triplicate.<br/><br/>
<br />
+
3) Parameters<br/>
<table>
+
<img src="https://static.igem.org/mediawiki/2015/7/79/NmQBhvk.png">
  <tr>
+
      <td>Component</td>
+
      <td>50 µL reaction</td>
+
  </tr>
+
  <tr>
+
      <td>5X Q5 Buffer</td>
+
      <td>10 µL</td>
+
  </tr>
+
  <tr>
+
      <td>dNTP (10 µM)</td>
+
      <td>1 µL</td>
+
  </tr>
+
  <tr>
+
      <td>Primer Forward 10 µM</td>
+
      <td>2.5 µL</td>
+
  </tr>
+
  <tr>
+
      <td>Primer Reverse 10 µM</td>
+
      <td>2.5 µL</td>
+
  </tr>
+
  <tr>
+
      <td>DNA</td>
+
      <td>1 colony* or 1 µL</td>
+
  </tr>
+
<tr>
+
      <td>Q5 Polymerase</td>
+
      <td>0.5 µL</td>
+
  </tr>
+
<tr>
+
      <td>Water</td>
+
      <td>To 50 µL</td>
+
  </tr>   
+
</table>
+
<p>*One colony in 50 µL of Water. 15-20 min at 80°C. 5 min at 96°C.</p><br />
+
<table>
+
<tr>
+
<td>Cycling Step</td>
+
<td>Temperature</td>
+
<td>Time</td>
+
<td>Number of cycles</td>
+
</tr>
+
<tr>
+
<td>Initial denaturation</td>
+
<td>98°C</td>
+
<td>10 min if DNA is from a colony <br /> else 3 min</td>
+
<td>1</td>
+
</tr>
+
<tr>
+
<td>Denaturation</td>
+
<td>98°C</td>
+
<td>10 sec</td>
+
<td>X 27</td>
+
</tr>
+
<tr>
+
<td>Annealing</td>
+
<td>55°C</td>
+
<td>20 sec</td>
+
<td>X 27</td>
+
</tr>
+
<tr>
+
<td>Extension</td>
+
<td>72°C</td>
+
<td>30 sec/kb</td>
+
<td>X 27</td>
+
</tr>
+
<tr>
+
<td>Hold</td>
+
<td>16°C</td>
+
<td>Indefinitely</td>
+
<td></td>
+
</tr>
+
</table>
+
<br />      
+
 
     </div>
 
     </div>
 
</div>
 
</div>
 
<br />
 
<br />
 
<div class="container">
 
<div class="container">
<button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo11">Plasmid DNA purification protocol</button>
+
<button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo11">FLUOROMETER</button>
 
   <div id="demo11" class="collapse">
 
   <div id="demo11" class="collapse">
<br />
+
<br/>
<p>This is the plasmid purification kit of the Igem-AMU team of 2014.</p><br />
+
1) Calibration: Dilution of Atto488 in triplicates with PBS1X<br/>
 +
2) Preparation samples<br/>
 +
&nbsp; Each construction was biologically triplicate.<br/>
 +
&nbsp; OD of each sample was adjusted at 0.5 diluted into PBS1X (0.475< OD <0.525).<br/>
 +
&nbsp; 1 mL of each sample was prepared in a cuvette. A duplicate of the measure was also done for each biological triplicate.<br/>
 +
3) Parameters<br/>
 +
<img src="https://static.igem.org/mediawiki/2015/1/1a/ZUpsgtF.png">
 +
</div>
 +
</div>
 +
<br/>
 +
<div class="container">
 +
<button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo12">Magicbox</button>
 +
  <div id="demo12" class="collapse">
 +
<br/>
 +
The Magicbox is composed of: <br/>
 +
<ul>
 +
<li>•a dark chamber</li>
 +
<li>•40 mL Blue Coomassie (10%) Filter (Stock solution QSP 100mL: 1 mL Tris-HCl 5M, 85mg Coomassie Brillant Blue, 20mL ethanol) placed into a 50 mL cell culture flask with standard cap</li>
 +
<li>•a light source (light spot led GU10, 135 lumen)</li>
 +
<li>•an optic filter (Newport FSQ-OG515) </li>
 +
<li>•a webcam (creative) </li>
 +
<li>•a software to take pictures ( Live! Central 3)</li>
 +
</ul>
 +
<img src="https://static.igem.org/mediawiki/2015/d/d6/Tho0gUp.png">
 +
<br/>
 +
1) Calibration: Dilution of Atto488 in triplicates with PBS1X<br/><br/>
 +
2) Preparation samples:<br/><br/>
 +
&nbsp; Each construction was biologically triplicate.<br/>
 +
&nbsp; OD of each sample was adjusted at 0.5 diluted into PBS1X (0.475< OD <0.525).<br/>
 +
&nbsp; 1 mL of each sample was prepared in a cuvette. A duplicate of the measure was also done for each biological triplicate.<br/>
 +
3) Measurement<br/><br/>
 +
4) Analyses of data<br/><br/>
 +
Pictures were analyzed using the software ImageJ:<br/><br/>
 +
• File -> open -> select the picture you want to analyze
 +
• Select the same area for all pictures
 +
• Analyze -> plot -> profile Save
 +
<img src="https://static.igem.org/mediawiki/2015/6/6b/Greeeeen.png">
  
<p><span style ="color:#FF0000">Use the kit with gloves and without fire.</p><br />
 
<table>
 
  <tr>
 
      <td>Cultivate and harvest bacterial cells</td>
 
      <td>Harvest the bacterial cells in a 2 mL tube</td>
 
  <td>Centrifuge 30 sec at 11.000 g</td>
 
  </tr>
 
  <tr>
 
      <td>Cell lysis</td>
 
  <td></td>
 
      <td>Add 250µL of Buffer A1 and suspend the cells
 
Then Add 250µL of Buffer A2
 
Incubate 5 min at RT
 
Add 300 µL of Buffer AE3</td>
 
  </tr>
 
  <tr>
 
      <td>Clarification of the lysis</td>
 
  <td>Shake gently until the blue disappear</td>
 
      <td>Centrifuge 5-10 min at 11.000 g</td>
 
  </tr>
 
  <tr>
 
      <td>Bind DNA</td>
 
      <td>Load supernatant on a new column with a discard tube below</td>
 
  <td>Centrifuge 1 min at 11.000 g</td>
 
  </tr>
 
  <tr>
 
      <td>Wash silica membrane</td>
 
      <td>Discard the content of the discard tube and replace it below the column</td>
 
  <td>(optional: Add 500 µL of Buffer AW and incubate 5 min at RT)
 
  Add 600 µL of Buffer A4
 
  Centrifuge 1 min at 11.000 g</td>
 
  </tr>
 
  <tr>
 
      <td>Dry silica membrane</td>
 
  <td>discard the content of the discard tube and replace it below the column</td>
 
      <td>Centrifuge 2 min at 11.000 g</td>
 
  </tr>
 
<tr>
 
      <td>Elute DNA</td>
 
      <td>Place a 1.5 mL Eppendorf tube below the column</td>
 
  <td>Add 50 µL of Buffer AE
 
  Incubate 1 min at RT
 
  Centrifuge 1 min at 11.000g</td>
 
  </tr>
 
</table>
 
<br />
 
<h3>Nanodrop measurement:<h3><br />
 
  
<p>Add 2µL of buffer AE, close the machine and open it again, then clean up and down with paper.</p>  
+
</div>
<p>Add 2µL of buffer AE, close and mesure for the blank, then clean up and down with paper.</p>
+
</div>
<p>Add 2µL of your sample and close it. Don’t forget to note your concentration !</p>
+
<br/>
<p>Clean your sample with paper, then clean up and down with AE</p>
+
<div class="container">
<p><span style ="color:#FF0000">Don’t put your finger on the paper when you are cleaning, you could contaminate the sample with YOUR DNA !</p>  
+
<button type="button" class="btn btn-info" data-toggle="collapse" data-target="#demo13">CONFOCAL MICROSCOPY</button>
 +
  <div id="demo13" class="collapse">
 +
<br/>
 +
1) Calibration: Dilution of Atto488 in triplicates with PBS1X
 +
<br/><br/>
 +
2) Preparation samples
 +
<br/><br/>
 +
&nbsp; Each construction was biologically triplicate.<br/>
 +
&nbsp; OD of each sample was adjusted at 0.5 diluted into PBS1X (0.475< OD <0.525).<br/>  
 +
&nbsp; 1 mL of each sample was prepared in a cuvette. A duplicate of the measure was also done for each biological triplicate.
 +
<br/><br/>
 +
3) Parameters
 +
&nbsp;•Laser 488 – 1-10%<br/>
 +
&nbsp;•4us/pixel<br/>
 +
&nbsp;•HV = 550V<br/>
 +
&nbsp;•Gain = 1%<br/>
 +
&nbsp;•Offset = 1%<br/>
 +
<br/><br/>
 +
4) Analyses of data<br/>
 +
Pictures were analyzed using the software ImageJ.
 +
 
 
</div>
 
</div>
 
</div>
 
</div>
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<h1 class="blue">MORE INFORMATION ON FACEBOOK !</h1>
 
<h1 class="blue">MORE INFORMATION ON FACEBOOK !</h1>
 
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+
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                     </ul>
 
                     </ul>
  
Line 761: Line 601:
 
                 <div class="col-md-12 text-center">
 
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+
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+
    <img src="https://static.igem.org/mediawiki/2015/8/87/Corninglogo.jpg" width="200" align="center"
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<li><a href="https://www.sigmaaldrich.com/france.html"><img src="http://i.imgur.com/PUNXaNj.png" class="img-grey mautomargin" width="200" height="100"></a></li>
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<li><a href="http://www.starlab.de/int/?l=5"><img src="http://i.imgur.com/SsgB8IC.jpg" class="img-grey mautomargin" width="200" height="100"></a></li>
+
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<li><a href="http://fr.ambafrance-us.org/"><img src="http://i.imgur.com/m3ieC2R.png" class="img-grey mautomargin" width="200" height="100"></a></li>
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<li><a href="https://www.neb.com/"><img src="http://i.imgur.com/ll3uagr.png" class="img-grey mautomargin" width="200" height="100"></a></li>
+
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<li><a href="http://sciences.univ-amu.fr/"><img src="http://i.imgur.com/FtFgEFj.png" class="img-grey mautomargin" width="200" height="100"></a></li>
+
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<li><a href="https://eu.idtdna.com/site"><img src="http://i.imgur.com/ocgTw7q.jpg" class="img-grey mautomargin" width="200" height="100"></a></li>
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+
  <li><a href="https://www.eppendorf.com/FR-fr/">
 +
    <img src="https://static.igem.org/mediawiki/2015/d/db/Eppendorflogo.jpg" width="200" align="center"
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  <li><a href="http://www.dutscher.com/frontoffice/home">
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    class="img-grey mautomargin" align="center" ></a></li>
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  <li><a href="https://www.sigmaaldrich.com/france.html">
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 +
</ul>
  
 
                    
 
                    

Latest revision as of 00:07, 19 September 2015

Chew fight

Protocols


Plasmids transformation :
Add 20 ng of plasmid to 100 µL of competent cells thawed in ice
Incubate 30-45 min in ice
Thermal shock : put tubes in the Thermomixer at 42°C during 2 min
Incubate 5 min in ice
Add 900 µL of LB
Incubate 1 hour at 37°C with agitation
Spread 100 µL on LB limp (with antibiotic)
To make negative control, follow the same procedure but without add plasmids and spread 300 µL
Ligation transformation:
Add 20 ng of ligation’s product to 100 µL of competent cells thawed in ice
Incubate 30-45 min in ice
Thermal shock : put tubes in the Thermomixer at 42°C during 2 min
Incubate 5 min in ice
Add 900 µL of LB
Incubate 1 hour at 37°C with agitation
Centrifuge 5 min at 5000 rpm
Eliminate 850 µL of medium
Suspend the pellet
Spread 150 µL on LB limp (with antibiotic)
To make negative control, follow the same procedure but without add plasmids and spread 300 µL


Make a culture of your bacteria in LB medium and let it grow until bacteria are in exponential phase (OD600 = 0.5).
Cells are cold centrifuge 10 min at 3500 rpm.
The pellet is slowly suspended in 80 mL of Tfb1 buffer (300mM KOAc, 0.05M MnCl2, 0.1M KCl, 0.01M
CaCl2, 15% Glycerol (see next section “Preparation of Tbf1 and Tbf2 buffer”).
After another 5 min cold centrifugation at 3500 rpm, the pullet is suspended in 8 mL of Tbf2 Buffer
(0.01mM NaMOPS pH 7, 0.075M CaCl2, 0.01M KCl, 15% Glycerol)
Incubate 15 min in ice. Aliquot 200µL of cell suspension in sterile Eppendorf tubes. The cell
suspension is conserved at -80°C.


For 200 mL of culture:
Preparation of 80 mL of Tbf1 Buffer:
KAc 1M 2.4 mL
MnCl2 0.5M 8 mL
KCl 1 M 8 mL
CaCl2 0.1M 8 mL
Gly 80% 15 mL
H2O 38.6 mL
Preparation of 8 mL of Tbf2 Buffer:
NaMOPS 0.2M 400 µL
CaCl2 0.1M 6 mL
KCl 1 M 8 mL
Gly 80% 1.5 mL
KCl 1M 80 µL
H2O 500 µL


50% glycerol 6.25 mL Glycerol 80%
20 mM EDTA 0.4 mL EDTA 0.5 M
0.05% Bromophenol blue ≈0.05g Bromophenol blue
0.05% Xylene cyanol ≈0.05g xylene cyanol
1% SDS 1 mL SDS 10%


DNA Between 50 and 100 ng
EcoRI-HF 0.2 µL
PstI 0.2 µL
10X NEBuffer 2 2 µL
100X BSA 0.2 µL
H2O To 20 µL
Incubate all digest reactions at 37°C for 1 hour and then add 3 µL of SES 4X and migrate 30 min at
150V on a 1% agarose gel.


Upstream part :
Upstream part plasmid 500 ng
EcoRI-HF 1 µL
PstI 1 µL
10X NEBuffer 2 2.5 µL
100X BSA 0.5 µL
H2O To 50 µL

Downstream part :
Downstream part plasmid 500 ng
Xba I 1 µL
Spe I 1 µL
10X NEBuffer 2 2.5 µL
100X BSA 0.5 µL
H2O To 50 µL

Destination plasmid:
Destination plasmid 500 ng
EcoRI-HF 1 µL
PstI 1 µL
DpnI 1 µL
10X NEBuffer 2 2.5 µL
100X BSA 0.5 µL
H2O To 50 µL

Incubate the three restriction digest reactions at 37°C for 10 minutes and then heat inactivate at 80°C for 20 minutes.


Upstream part digestion 2 µL
Dowstream part digestion 2 µL
Destination plasmid 2 µL
10X T4 DNA ligase buffer 2 µL
T4 DNA ligase 1 µL
H2O 11 µL

Incubate at RT for 1 hour.


For each construction the biobricks corresponding is RBS (B0034), GFP (E0040) and Terminator (B0010-B0012)
All the construction was introduced in the plasmid PSB1C3 and cloning in E.Coli DH5α



Day 1: Streak on plates clones containing constructions.
Day 2: Starters were prepared in 3 mL LB media. One colony of each construction was inoculated. We did biological triplicates.Starters were incubated during 16-18 hours at 300 rpm and 37°C with shaking.
Day 3: Measurement


1)Calibration: Dilution of Atto488 in triplicates with PBS1X and LB

2) Preparation samples

  Each construction was biologically triplicate.
  OD of each sample was adjusted at 0.5 diluted into LB media (0.475< OD <0.525).
  200µl of each sample were put into a 96-wells plate.   A triplicate of the measure was also done for each biological triplicate.

3) Parameters


1) Calibration: Dilution of Atto488 in triplicates with PBS1X
2) Preparation samples
  Each construction was biologically triplicate.
  OD of each sample was adjusted at 0.5 diluted into PBS1X (0.475< OD <0.525).
  1 mL of each sample was prepared in a cuvette. A duplicate of the measure was also done for each biological triplicate.
3) Parameters


The Magicbox is composed of:
  • •a dark chamber
  • •40 mL Blue Coomassie (10%) Filter (Stock solution QSP 100mL: 1 mL Tris-HCl 5M, 85mg Coomassie Brillant Blue, 20mL ethanol) placed into a 50 mL cell culture flask with standard cap
  • •a light source (light spot led GU10, 135 lumen)
  • •an optic filter (Newport FSQ-OG515)
  • •a webcam (creative)
  • •a software to take pictures ( Live! Central 3)

1) Calibration: Dilution of Atto488 in triplicates with PBS1X

2) Preparation samples:

  Each construction was biologically triplicate.
  OD of each sample was adjusted at 0.5 diluted into PBS1X (0.475< OD <0.525).
  1 mL of each sample was prepared in a cuvette. A duplicate of the measure was also done for each biological triplicate.
3) Measurement

4) Analyses of data

Pictures were analyzed using the software ImageJ:

• File -> open -> select the picture you want to analyze • Select the same area for all pictures • Analyze -> plot -> profile Save


1) Calibration: Dilution of Atto488 in triplicates with PBS1X

2) Preparation samples

  Each construction was biologically triplicate.
  OD of each sample was adjusted at 0.5 diluted into PBS1X (0.475< OD <0.525).
  1 mL of each sample was prepared in a cuvette. A duplicate of the measure was also done for each biological triplicate.

3) Parameters  •Laser 488 – 1-10%
 •4us/pixel
 •HV = 550V
 •Gain = 1%
 •Offset = 1%


4) Analyses of data
Pictures were analyzed using the software ImageJ.

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  • Aix Marseille Université
  • Marseille
  • France

Chew figth project, for the iGEM competition. See you soon in Boston !