Latest revision as of 13:26, 1 October 2013

Iron coli project

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Competent cells

Goal

Bacteria can integrate DNA fragments from the environment. Escherichia coli, contrary to Bacillus subtillis another bacteria frequently used in molecular and synthetic biology, is not naturally in a state of competence (able to integrate DNA fragments during transformation), that is why we have to prepare them.
Two methods can be used:
-Chimiocompetent cells
-Electrocompetent cells
We choose to use chimiocompetent cells for usual transformation and electrocompetent cells just for ΔFur strain preparation by homologous recombination.

Preparation

Grow overnight pre-culture of the strain you want to make competent (chimio or electro) in 2 mL of LB.

Chimiocompetent cells

Solutions preparation

Solution for 1M Cacl2:
Add 14,30g of CaCl2 into 100 ml distilledwater

Solution for 0,1M Cacl2:
Add 50 mL of CaCl2 1M solution into 450 ml of distilled water

Solution for 0,1M Cacl2 + 15% glycerol:
Add 50 mL of CaCl2 1M solution and 75 mL of glycerol 100% into 450 ml of dissilted water

Competent cells preparation

For 200 ml LB medium, add 400 µL of strain sample.
Let the bacteria grow until it reaches an Optical Density (OD) between 0,3 and 0,35. Chimiocompetent bacteria are more able to transform when they are in exponential phase.
Once it reached the right OD, put the medium on ice for 30 minutes to slow down growth.
Split the 200 mL into 4x50 mL tubes then centrifuge at 3000 rpm for 5 minutes at 4°C and suppress supernatant afterwards.
Resuspend the pellet cells with 5 mL of Cacl2 at 0,1M for each 50 mL tube.
Again, put the medium on ice for 30 minutes.
Centrifuge at 3000 rpm for 5 minutes at 4°C then suppress supernatant.
Resuspend the cells with 1 mL of Cacl2 at 0,1M + 15% glycerol for each 50 mL tube.
Split the total 4 mL into 40 tubes containing each 100 µL of concentrated cell solution. This step should be executed fast enough and on ice.
Store at - 80°C.

Electrocompetent cells

For 200 ml LB medium, add 200 µL of strain sample.
Let the bacteria grow until it reaches an OD between 0,5 and 0,7.
Once it reached the right OD, put the medium on ice for 20 minutes to slow down growth.
Split the 200 mL into 4x50 mL tubes then centrifuge at 4000 rpm for 15 minutes at 4°C and suppress supernatant afterwards.
Resuspend the pellet cells with 50 mL of ice-cold 10% glycerol for each 50 mL tube.
Centrifuge at 4000 rpm for 15 minutes at 4°C then suppress supernatant.
Resuspend the cells with 25 mL of ice-cold 10% glycerol for each 50 mL tube.
Centrifuge at 4000 rpm for 15 minutes at 4°C then suppress supernatant.
Resuspend the cells with 2 mL of ice-cold 10% glycerol for each 50 mL tube.
Centrifuge at 4000 rpm for 15 minutes at 4°C then suppress supernatant.
Resuspend the cells with 2 mL of ice-cold 10% glycerol for each 50 mL tube.
Split the total 4 mL into 40 tubes containing each 100 µL of concentrated cell solution. This step should be executed fast enough and on ice.
Store at - 80°C.

Contamination and competence tests

Plate each strain on LB medium with Ampicillin, Kanamycin or Chloramphenicol in order to evaluate if it contaminated or not.
Transform each strain with a pSB1A3 plasmid (red colonies) and plated them on LB medium with Ampicillin only to evaluate wether our strains are competent or not.
If the bacteria is competent, it will incorporate the plasmid that code for a red protein and thus have a red phenotype.(see figure below)

Figure 1: Escherichia coli (MG1655 strain) on the left are highly competent and expressed RFP, bacteria on the right are little competent.

@@ Line 1: / Line 1: @@
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+{{:Team:Evry/template_notebook}}
 <html>
-<a href='https://2013.igem.org/Team:Evry/Protocoles/03' title='Vers la page française'> <img src='https://static.igem.org/mediawiki/2013/b/b9/Francais.jpg'/></a>
+<div id="mainTextcontainer">
-<h1 align='center'> Plasmid purification </h1>
-<i>Protocole from Macherey-Nagel plasmid purification notebook</i><br><br>
+<h1> Competent cells </h1>
-<b>. Récupération des bactéries</b><br>
+<h2> Goal </h2>
-Set saturated E.coli LM culture into 2 mL tubes. Centrifuge at 11 000 x g for 30 secondes. Discard as much as supernatant as possible.<br><br>
+<p>
+Bacteria can integrate DNA fragments from the environment. <i>Escherichia coli</i>, contrary to <i>Bacillus subtillis</i> another bacteria frequently used in molecular and synthetic biology, is not naturally in a state of competence (able to integrate DNA fragments during <a href='https://2013.igem.org/Team:Evry/Protocols/02' target='_blank'>transformation</a>), that is why we have to prepare them.<br>
+Two methods can be used:<br>
+  -Chimiocompetent cells<br>
+  -Electrocompetent cells<br>
-<b>.Cell lysis</b> <br>
-Add 250 μL Buffer A1 (resuspension buffer). Resuspend the cells with a vortex or a pipette.
-<br>
-Add 250 μL Buffer A2 (lysis buffer). Mix gently by inverting the tube 6 - 8 times. Incubate at room temperature until lysate appears clear.<br>
-Add 300 μL Buffer A3 (neutralisation buffer). Mix thoroughly by inverting the tube 6 - 8 times .<br>
-<b>. Clarification of lysate</b><br>
+We choose to use chimiocompetent cells for usual transformation and electrocompetent cells just for ΔFur strain preparation by <a href="https://2013.igem.org/Team:Evry/Protocols/10" target='_blank'>homologous recombination</a>.<br>
-Centrifuge at 11 000 x g for 5 minutes . Repeat this step until supernatant is not clear.<br><br>
-<b>.Bind ADN<br></b>
+<h2> Preparation </h2>
-Place a NucleoSpin Plasmid Column in a Collection Tube of 2 mL et and set the supernatant from the last step. Centrifuge at 11 000 x g for 1 minute. Discard flow-through and place the column back into the collection tube.<br><br>
-<b>. Wash membrane<br></b>
+<p>Grow overnight pre-culture of the strain you want to make competent (chimio or electro) in 2 mL of LB.</p>
-Add 600 μL Buffer A4 (wash buffer) previously supplemented with ethanol. Centrifuge ar 11 000 x g for 1 minute. Discard flow-through and place the column back into an empty collection tube.<br>
-<b>. Dry membrane<br></b>
+<h3>Chimiocompetent cells</h3>
-Centrifuge at 11 000 x g for 2 minutes and discard the collection tube.<br><br>
-<b>. Elution de l'ADN<br></b>
+<h4>Solutions preparation</h4>
-Place the column in a 1,5 mL and add 50 μL de Buffer AE (elution buffer). Incubate at room temperature and centrifuge at 11 000 x g for 1 minute.<br>
-Measure the concentration with nanodrop, then stock the tubes at -20°C<br>
-<script type='text/javascript'>writeFooter()</script>
+<p><b>Solution for 1M Cacl2:</b><br/>
+Add 14,30g of CaCl2 into 100 ml distilledwater<br/>
+</p>
+<b><p>Solution for 0,1M Cacl2:</b><br/>
+Add 50 mL of CaCl2 1M solution into 450 ml of distilled water<br/>
+</p>
+<p><b>Solution for 0,1M Cacl2 + 15% glycerol:</b><br/>
+Add 50 mL of CaCl2 1M solution and 75 mL of glycerol 100% into 450 ml of dissilted water<br/>
+</p>
+<h4>Competent cells preparation</h4>
+<p>For 200 ml LB medium, add 400 µL of strain sample.<br/>
+Let the bacteria grow until it reaches an Optical Density (OD) between 0,3 and 0,35. Chimiocompetent bacteria are more able to transform when they are in exponential phase.<br/>
+Once it reached the right OD, put the medium on ice for 30 minutes to slow down growth.<br/>
+Split the 200 mL into 4x50 mL tubes then centrifuge at 3000 rpm for 5 minutes at 4°C and suppress supernatant afterwards.<br/>
+Resuspend the pellet cells with 5 mL of Cacl2 at 0,1M for each 50 mL tube.<br/>
+Again, put the medium on ice for 30 minutes.<br/>
+Centrifuge at 3000 rpm for 5 minutes at 4°C then suppress supernatant.<br/>
+Resuspend the cells with 1 mL of Cacl2 at 0,1M + 15% glycerol for each 50 mL tube.<br/>
+Split the total 4 mL into 40 tubes containing each 100 µL of concentrated cell solution. This step should be executed fast enough and on ice.<br/>
+Store at - 80°C.</p>
+<h3>Electrocompetent cells</h3>
+<p>For 200 ml LB medium, add 200 µL of strain sample.<br/>
+Let the bacteria grow until it reaches an OD between 0,5 and 0,7.<br/>
+Once it reached the right OD, put the medium on ice for 20 minutes to slow down growth.<br/>
+Split the 200 mL into 4x50 mL tubes then centrifuge at 4000 rpm for 15 minutes at 4°C and suppress supernatant afterwards.<br/>
+Resuspend the pellet cells with 50 mL of ice-cold 10% glycerol for each 50 mL tube.<br/>
+Centrifuge at 4000 rpm for 15 minutes at 4°C then suppress supernatant.<br/>
+Resuspend the cells with 25 mL of ice-cold 10% glycerol for each 50 mL tube.<br/>
+Centrifuge at 4000 rpm for 15 minutes at 4°C then suppress supernatant.<br/>
+Resuspend the cells with 2 mL of ice-cold 10% glycerol for each 50 mL tube.<br/>
+Centrifuge at 4000 rpm for 15 minutes at 4°C then suppress supernatant.<br/>
+Resuspend the cells with 2 mL of ice-cold 10% glycerol for each 50 mL tube.<br/>
+Split the total 4 mL into 40 tubes containing each 100 µL of concentrated cell solution. This step should be executed fast enough and on ice.<br/>
+Store at - 80°C.</p>
+<h2>Contamination and competence tests</h2>
+<p>Plate each strain on LB medium with Ampicillin, Kanamycin or Chloramphenicol in order to evaluate if it contaminated or not. <br/>
+Transform each strain with a pSB1A3 plasmid (red colonies) and plated them on LB medium with Ampicillin only to evaluate wether our strains are competent or not.<br>
+If the bacteria is competent, it will incorporate the plasmid that code for a red protein and thus have a red phenotype.(see figure below)</p>
+<div align="center">
+<div class="captionedPicture" style="width:40%;float:center;">
+   <a title="Competence test" href="https://static.igem.org/mediawiki/2013/thumb/9/99/Competence_petri_dish.png/800px-Competence_petri_dish.png">
+    <img alt="Competence test" src="https://static.igem.org/mediawiki/2013/thumb/9/99/Competence_petri_dish.png/800px-Competence_petri_dish.png" class="Picture"/>
+   </a>
+   <div class="caption">
+     <b>Figure 1:</b> <i>Escherichia coli</i> (MG1655 strain) on the left are highly competent and expressed RFP, bacteria on the right are little competent.
+   </div>
+  </div>
+  </div>
+</div>
+</div>
 </html>
+{{:Team:Evry/foot}}

Team:Evry/Protocols/01

From 2013.igem.org