Difference between revisions of "Team:Pasteur Paris/Microbiology week9"

 
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  <a href="https://2016.igem.org/Team:Pasteur_Paris/Microbiology"><h2><B>Microbiology Notebook</B></h2><a/>
 +
</div>
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<div id="home">
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<center></a><a href="https://2016.igem.org/Team:Pasteur_Paris/Microbiology"><img src="https://static.igem.org/mediawiki/2016/5/5a/Labwork_pasteur.png" width="40%" alt=""/></img></a></center>
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   <div id="week9">
 
   <div id="week9">
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     <p><h3><B> August 1, 2016:</B></h3></p>
 
     <p><h3><B> August 1, 2016:</B></h3></p>
 
     <p>
 
     <p>
         <a href="#exp1"><h4> Silification tests </h4></a><br/>  
+
         <a href="#exp1"><h4> 120. Silification tests </h4></a><br/>  
         <a href="#exp2"><h4> PCR of C1 v2 and C2 v2 with Takara enzyme </h4></a><br/>  
+
         <a href="#exp2"><h4> 121. PCR of C1 v2 and C2 v2 with Takara enzyme </h4></a><br/>  
         <a href="#exp3"><h4> Agarose gel </h4></a><br/>  
+
         <a href="#exp3"><h4> 122. Agarose gel </h4></a><br/>  
         <a href="#exp4"><h4> Electrophoresis of the PCR products (C1 v2 and C2 v2) </h4></a><br/>  
+
         <a href="#exp4"><h4> 123. Electrophoresis of the PCR products (C1 v2 and C2 v2) </h4></a><br/>  
         <a href="#exp5"><h4> PCR Clean up </h4></a><br/>
+
         <a href="#exp5"><h4> 124. PCR Clean up </h4></a><br/>
 
     </p>
 
     </p>
 
     <p><h3><B> August 2, 2016:</B></h3></p>
 
     <p><h3><B> August 2, 2016:</B></h3></p>
 
     <p>
 
     <p>
         <a href="#exp6"><h4> PCR of A1, A2, B1, B2, D1, D2, E1 and C2 </h4></a><br/>  
+
         <a href="#exp6"><h4> 125. PCR of A1, A2, B1, B2, D1, D2, E1 and C2 </h4></a><br/>  
         <a href="#exp7"><h4> Analysis of PCR products from August 1 </h4></a><br/>  
+
         <a href="#exp7"><h4> 126. Analysis of PCR products from August 1 </h4></a><br/>  
         <a href="#exp8"><h4> PCR clean up </h4></a><br/>  
+
         <a href="#exp8"><h4> 127. PCR clean up </h4></a><br/>  
         <a href="#exp9"><h4> Ligation of PCR products with TOPO cloning </h4></a><br/>
+
         <a href="#exp9"><h4> 128. Ligation of PCR products with TOPO cloning </h4></a><br/>
<a href="#exp10"><h4> Transformation in TOP10 competent cells </h4></a><br/>
+
<a href="#exp10"><h4> 129. Transformation in TOP10 competent cells </h4></a><br/>
<a href="#exp11"><h4> PCR of A1&#8260;A2 and D1&#8260;D2  </h4></a><br/>
+
<a href="#exp11"><h4> 130. PCR of A1&#8260;A2 and D1&#8260;D2  </h4></a><br/>
 
</p>
 
</p>
     <p><h2><B> August 3, 2016:</B></h2></p>
+
     <p><h3><B> August 3, 2016:</B></h3></p>
 
     <p>
 
     <p>
         <a href="#exp12"><h4> Analysis of PCR products from August 2, 2016  </h4></a><br/>  
+
         <a href="#exp12"><h4> 131. Analysis of PCR products from August 2, 2016  </h4></a><br/>  
             <a href="#exp13"><h4> Miniprep of cultures C1 v2 and C2 v2 from August 2 </h4></a><br/>  
+
             <a href="#exp13"><h4> 132. Miniprep of cultures C1 v2 and C2 v2 from August 2 </h4></a><br/>  
             <a href="#exp14"><h4> Digestion of C1 v2 and C2 v2 </h4></a><br/>  
+
             <a href="#exp14"><h4> 133. Digestion of C1 v2 and C2 v2 </h4></a><br/>  
             <a href="#exp15"><h4> Electrophoresis of C1 v2 and C2 v2 </h4></a><br/>  
+
             <a href="#exp15"><h4> 134. Electrophoresis of C1 v2 and C2 v2 </h4></a><br/>  
             <a href="#exp16"><h4> DNA extraction from the gel </h4></a><br/>
+
             <a href="#exp16"><h4> 135. DNA extraction from the gel </h4></a><br/>
             <a href="#exp17"><h4> Ligation of C1.2 /C1.5 and C2.1/C2.2 with pET43.1 and transformation with TOP10 competent cells </h4></a><br/>
+
             <a href="#exp17"><h4> 136. Ligation of C1.2&#8260;C1.5 and C2.1&#8260;C2.2 with pET43.1 (a+) and transformation with TOP10 competent cells </h4></a><br/>
 
</p>
 
</p>
     <p><h2><B>August 4, 2016:</B></h2></p>
+
     <p><h3><B>August 4, 2016:</B></h3></p>
 
     <p>
 
     <p>
         <a href="#exp18"><h4> Miniprep of B1&#8260;B2 and E1&#8260;E2 </h4></a><br/>  
+
         <a href="#exp18"><h4> 137. Miniprep of B1&#8260;B2 and E1&#8260;E2 </h4></a><br/>  
         <a href="#exp19"><h4> Digestion of B1&#8260;B2, E1&#8260;E2 and pET43.1 with Hind III and Xba I </h4></a><br/>  
+
         <a href="#exp19"><h4> 138. Digestion of B1&#8260;B2, E1&#8260;E2 and pET43.1 (a+) with Hind III and Xba I </h4></a><br/>  
         <a href="#exp20"><h4> Dephosphorylation of digested pET43.1 </h4></a><br/>  
+
         <a href="#exp20"><h4> 139. Dephosphorylation of digested pET43.1 (a+) </h4></a><br/>  
         <a href="#exp21"><h4> PCR of A1&#8260;A2 and D1&#8260;D2 without MgCl<sub>2<sub> </h4></a><br/>  
+
         <a href="#exp21"><h4> 140. PCR of A1&#8260;A2 and D1&#8260;D2 without MgCl<sub>2<sub> </h4></a><br/>  
             <a href="#exp22"><h4> Preculture of TOPO – C1 v2 (2) and (5) and TOPO – C2 v2 (1) and (2) </h4></a><br/>  
+
             <a href="#exp22"><h4> 141. Preculture of TOPO – C1 v2 (2) and (5) and TOPO – C2 v2 (1) and (2) </h4></a><br/>  
<a href="#exp23"><h4> Electrophoresis of PCR products A1&#8260;A2 and D1&#8260;D2 </h4></a><br/>
+
<a href="#exp23"><h4> 142. Electrophoresis of PCR products A1&#8260;A2 and D1&#8260;D2 </h4></a><br/>
<a href="#exp24"><h4> Next PCR of A1&#8260;A2 and D1&#8260;D2 </h4></a><br/>
+
<a href="#exp24"><h4> 143. Next PCR of A1&#8260;A2 and D1&#8260;D2 </h4></a><br/>
<a href="#exp25"><h4> Pool of inserts C1 v2 and C2 v2 </h4></a><br/>
+
<a href="#exp25"><h4> 144. Pool of inserts C1 v2 and C2 v2 </h4></a><br/>
 
</p>
 
</p>
     <p><B><h2> August 5, 2016:</B></h2></p>
+
     <p><B><h3> August 5, 2016:</B></h3></p>
 
     <p>  
 
     <p>  
             <a href="#exp26"><h4> Digestion of B1&#8260;B2 and C1&#8260;C2  </h4></a><br/>  
+
             <a href="#exp26"><h4> 145. Digestion of B1&#8260;B2 and C1&#8260;C2  </h4></a><br/>  
             <a href="#exp27"><h4> Ligation of C1 and C2 with pET43.1 digested and dephosphorylated </h4></a><br/>  
+
             <a href="#exp27"><h4> 146. Ligation of C1 and C2 with pET43.1 (a+) digested and dephosphorylated </h4></a><br/>  
             <a href="#exp28"><h4> Transformation of TOP10 competent cells </h4></a><br/>  
+
             <a href="#exp28"><h4> 147. Transformation of TOP10 competent cells </h4></a><br/>  
             <a href=#exp29”><h4> Ligation of B1&#8260;B2&#8260;C1&#8260;C2 in pET43.1 </h4></a><br/>
+
             <a href="#exp29"><h4> 148. Ligation of B1&#8260;B2&#8260;C1&#8260;C2 in pET43.1 (a+) </h4></a><br/>
<a href=#exp30”><h4> Transformation of B1&#8260;B2&#8260;C1&#8260;C2 in TOP10 </h4></a><br/>
+
<a href="#exp30"><h4> 149. Transformation of B1&#8260;B2&#8260;C1&#8260;C2 in TOP10 </h4></a><br/>
 
</p>
 
</p>
  
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               <p>
 
               <p>
 
               <U> Aim:</U> Check if the sillification is working with different volume of HCl and TEOS. <br/> <br/>
 
               <U> Aim:</U> Check if the sillification is working with different volume of HCl and TEOS. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
                <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/2/2a/Protocol-silification-assay_Pasteur_Paris2016.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
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&bull; Silification protein <br/>
 
&bull; Silification protein <br/>
 
&bull; HCl 1 M <br/>
 
&bull; HCl 1 M <br/>
&bull; TEOS <br/>
+
&bull; TEOS (Tetraethyl ortho silicate, Sigma) <br/>
 
&bull; Shaking incubator <br/>
 
&bull; Shaking incubator <br/>
 
&bull; 15 ml Falcon <br/>
 
&bull; 15 ml Falcon <br/>
&bull; Buffer A <br/>
+
&bull; Buffer A (See protein purification protocol)<br/>
 
&bull; 10 &#956;l and 200 &#956;l pipettes <br/><br/>
 
&bull; 10 &#956;l and 200 &#956;l pipettes <br/><br/>
 
               <U>Method:</U><br/>
 
               <U>Method:</U><br/>
       1. In a 1.5 ml Eppendorf prepare a sample with our protein, add 1 ml of HCl, 65.8 &#956;l of TEOS and let it incubate for 4 minutes in the rotating incubator
+
       <li>1. In a 1.5 ml Eppendorf prepare a sample with the fraction that contains protein c2, add 1 ml of HCl 1mM, 65.8 &#956;l of TEOS and let it incubate for 4 minutes in the rotating incubator</li>
2. In a 15 ml Falcon, put 9 ml of buffer A and add the previous sample
+
<li>2. In a 15 ml Falcon, put 9 ml of buffer A and add the previous sample</li>
3. Follow if silification initiates and progresses at various times : <br/>
+
<li>3. Follow if silification initiates and progresses at various times :</li> <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 84</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
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4. Redo this experiment with 1 ml of TEOS, 50 &#956;l of protein and vortex: <br/>
 
4. Redo this experiment with 1 ml of TEOS, 50 &#956;l of protein and vortex: <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 85</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
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5. Redo the experiment with 1 ml of TEOS to see the catalytic activity of the protein : <br/>
 
5. Redo the experiment with 1 ml of TEOS to see the catalytic activity of the protein : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 86</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
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</tbody>
 
</tbody>
 
                   </table><br/>
 
                   </table><br/>
6. Redo the experiment with 50 &#956;l of HCl and 50 &#956;l of protein<br/>
+
6. Redo the experiment with 50 &#956;l of HCl 1 mM and 50 &#956;l of protein<br/>
7.Redo the experiment with 50 &#956;l of HCl but without our protein<br/><br/>
+
7.Redo the experiment with 50 &#956;l of HCl 1 mM but without our protein<br/><br/>
  
 
<U>Results: </U><br/>
 
<U>Results: </U><br/>
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             <figcaption>
 
             <figcaption>
 
               <p>
 
               <p>
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
+
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert.
              <U> Protocol:</U> follow in this link<br/><br/>
+
We also switched to the Takara EX DNA polymerase for its terminal deoxynucleotide transferase activity, which adds an deoxy-A residue at the 3' end of the PCR product<br/> <br/>
 +
            <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/b/be/T--Pasteur_Paris--PCR_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
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&bull; Takara EX DNA polymerase <br/>
 
&bull; Takara EX DNA polymerase <br/>
 
&bull; PCR machine <br/>
 
&bull; PCR machine <br/>
&bull; 10 µ&#956;l and 200 &#956;l pipettes <br/><br/>
+
&bull; 10 &#956;l and 200 &#956;l pipettes <br/><br/>
 
               <U>Method:</U><br/>
 
               <U>Method:</U><br/>
 
       1. Use a Globalmix with : <br/>
 
       1. Use a Globalmix with : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 87</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
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2. For the next step use : <br/>
 
2. For the next step use : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 88</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
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                           <tr>
 
                           <tr>
 
                             <td align="center" ; valign = “center”><strong><p> 4 </p></strong></td>
 
                             <td align="center" ; valign = “center”><strong><p> 4 </p></strong></td>
                             <td align="center" ; valign = “center”> C2 insert (For +Rev) </td>
+
                             <td align="center" ; valign = “center”> C2 insert (For + Rev) </td>
 
                             <td align="center" ; valign = “center”> 46.5 </td>
 
                             <td align="center" ; valign = “center”> 46.5 </td>
 
                             <td align="center" ; valign = “center”> &#216; </td>
 
                             <td align="center" ; valign = “center”> &#216; </td>
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</tbody>
 
</tbody>
 
                   </table><br/>
 
                   </table><br/>
3. For the PCR program, start at 24&#176;C, add 0.5 &#956;l of Takara enzyme and proceed to 94&#176;C
+
3. For the PCR program, start at 24&#176;C, add 0.5 &#956;l of Takara enzyme and proceed to 94&#176;C. Annealing is set at 55&#176;C.
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
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               <p>
 
               <p>
 
               <U> Aim:</U> Verification of the content of the fractions obtained from the Ni-NTA column chromatography. <br/> <br/>
 
               <U> Aim:</U> Verification of the content of the fractions obtained from the Ni-NTA column chromatography. <br/> <br/>
              <U> Protocol:</U> follow in this link
+
 
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
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               <p>
 
               <p>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
              <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/60/T--Pasteur_Paris--Gel_electrophoresis_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
Line 549: Line 572:
 
&bull; PCR products  <br/>
 
&bull; PCR products  <br/>
 
&bull; Inserts C1 v2, C2 v2  <br/>
 
&bull; Inserts C1 v2, C2 v2  <br/>
&bull; Primer S <br/>
+
&bull; Primer S (For) <br/>
&bull; Primer AS <br/>
+
&bull; Primer AS (Rev) <br/>
 
&bull; Electrophoresis chamber, and power supply  <br/>
 
&bull; Electrophoresis chamber, and power supply  <br/>
 
&bull; 10 &#956;l pipette <br/><br/>
 
&bull; 10 &#956;l pipette <br/><br/>
 
               <U>Method:</U><br/>
 
               <U>Method:</U><br/>
 
       1. Add 5 &#956;l of DNA and 1 &#956;l of buffer 6X to each sample
 
       1. Add 5 &#956;l of DNA and 1 &#956;l of buffer 6X to each sample
2. Use 6 µl of molecular weight marker and deposit each sample in the wells :<br/>
+
2. Use 6 &#956;l of molecular weight marker and deposit each sample in the wells :<br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 89</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
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                   </table><br/>
 
                   </table><br/>
 
2. Start the electrophoresis at 50 V and 0.01 A for 10 minutes, then put it at 90 V and 0.03 A <br/><br/>
 
2. Start the electrophoresis at 50 V and 0.01 A for 10 minutes, then put it at 90 V and 0.03 A <br/><br/>
<U>Result</U><br/>
 
<img src =””; alt = “”/>
 
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
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               <p>
 
               <p>
 
               <U> Aim:</U> Get back the DNA amplified by PCR. <br/> <br/>
 
               <U> Aim:</U> Get back the DNA amplified by PCR. <br/> <br/>
              <U> Protocol:</U> follow in this link
 
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
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               <p>
 
               <p>
 
               <U> Aim:</U> Increase the quantity of DNA for cloning. <br/> <br/>
 
               <U> Aim:</U> Increase the quantity of DNA for cloning. <br/> <br/>
              <U> Protocol:</U> follow in this link
+
<U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/b/be/T--Pasteur_Paris--PCR_protocol.pdf">link</a><br/><br/>
 +
<U> Results :</U><br/>
 +
<center><img scr = "https://static.igem.org/mediawiki/2016/9/9b/Week_9_Figure_2_Gel_de_la_PCR_du_01-08-16_A1_A2_B1_B2_D1_D2_E1_E2.jpg"; alt = "PCR gel of A1_A2_B1_B2_D1_D2_E1_E2"/>
 +
<i><p><U>Figure 11 :</U> PCR gel of A1/A2/B1/B2/D1/D2/E1/E2 </p></i></center>
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
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               <p>
 
               <p>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
<U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/60/T--Pasteur_Paris--Gel_electrophoresis_protocol.pdf">link</a><br/><br/> <U>What we did in the lab:</U><br/>
              <U>What we did in the lab:</U><br/>
+
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
 
&bull; Agarose  <br/>
 
&bull; Agarose  <br/>
&bull; Ethidium bromide drop <br/>
+
&bull; Ethidium bromide drops (EB) <br/>
 
&bull; Molecular weight ladder (Gene ruler 1 Kb, Thermofisher) <br/>
 
&bull; Molecular weight ladder (Gene ruler 1 Kb, Thermofisher) <br/>
 
&bull; Loading buffer 6X  <br/>
 
&bull; Loading buffer 6X  <br/>
Line 646: Line 669:
 
&bull; 10 &#956;l pipette <br/><br/>
 
&bull; 10 &#956;l pipette <br/><br/>
 
               <U>Method:</U><br/>
 
               <U>Method:</U><br/>
       1. Make an agarose gel at 0.7%
+
       1. Make an agarose gel at 0.7&#37;
2. Prepare the samples with 5 µl of PCR products and 1 µl of loading buffer 6X
+
2. Prepare the samples with 5 &#956;l of PCR products and 1 &#956;l of loading buffer 6X
 
3. Depose each samples in the wells : <br/>
 
3. Depose each samples in the wells : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 90</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 707: Line 731:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
 
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
Line 716: Line 739:
 
       1. Prepare the 8 samples: <br/>
 
       1. Prepare the 8 samples: <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 91</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 745: Line 769:
 
2. Follow the protocol of the Qiagen PCR clean up kit <br/><br/>
 
2. Follow the protocol of the Qiagen PCR clean up kit <br/><br/>
 
<U>Result</U><br/>
 
<U>Result</U><br/>
We obtained 25 µl of each insert purified by PCR.
+
We obtained 25 &#956;l of each insert purified by PCR.
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
Line 761: Line 785:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
 
               <U> Aim:</U> Test the specificity of primers For and Rev to obtain more insert. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
                <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/6f/T--Pasteur_Paris--Ligation_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
Line 773: Line 797:
 
       1 For each inserts, prepare the following mix : <br/>
 
       1 For each inserts, prepare the following mix : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 92</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 815: Line 840:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Check if our plasmid was inserted in the bacteria, and to recover larger amounts of it. <br/> <br/>
 
               <U> Aim:</U> Check if our plasmid was inserted in the bacteria, and to recover larger amounts of it. <br/> <br/>
              <U> Protocol:</U> follow in this link
+
<U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/c/ca/T--Pasteur_Paris--Transformation_protocol.pdf">link</a><br/><br/>
<br/><br/><br/>
+
 
 
               </p>
 
               </p>
 
             </figcaption>
 
             </figcaption>
Line 830: Line 855:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Increase the quality of DNA. <br/> <br/>
 
               <U> Aim:</U> Increase the quality of DNA. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
<U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/b/be/T--Pasteur_Paris--PCR_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
&bull; dNTP <br/>
+
&bull; dNTPs <br/>
 
&bull; MgCl<sub>2</sub> <br/>
 
&bull; MgCl<sub>2</sub> <br/>
 
&bull; Buffer 20X <br/>
 
&bull; Buffer 20X <br/>
Line 846: Line 871:
 
       1. Prepare a Globalmix with : <br/>
 
       1. Prepare a Globalmix with : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 93</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 854: Line 880:
 
                     <tbody>
 
                     <tbody>
 
                           <tr>
 
                           <tr>
<td align="center" ; valign = “center”><strong><p>  dNTP </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p>  dNTPs </p></strong></td>
 
<td align="center" ; valign = “center”> 12.5</td>
 
<td align="center" ; valign = “center”> 12.5</td>
 
</tr>
 
</tr>
Line 885: Line 911:
 
2. Prepare the following samples :
 
2. Prepare the following samples :
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 94</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 896: Line 923:
 
                     <tbody>
 
                     <tbody>
 
                           <tr>
 
                           <tr>
<td align="center" ; valign = “center”> <strong><p>  V<sub>inserts</sub> (&#956;l) </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p>  V<sub>inserts</sub> (&#956;l) </p></strong></td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
Line 927: Line 954:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Check the efficiency of the PCR. <br/> <br/>
 
               <U> Aim:</U> Check the efficiency of the PCR. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/60/T--Pasteur_Paris--Gel_electrophoresis_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
Line 943: Line 970:
 
3. Deposit each sample in the wells : <br/>
 
3. Deposit each sample in the wells : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 95</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 984: Line 1,012:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Get DNA back. <br/> <br/>
 
               <U> Aim:</U> Get DNA back. <br/> <br/>
               <U> Protocol:</U> follow in this link
+
               <U> Protocol:</U> follow in this link <br/><br/>
 +
<U>Results</U><br/>
 +
<center><img scr = "https://static.igem.org/mediawiki/2016/0/04/Week_9_Figure_3_gel_miniprep_topoclonning_C1_de_1_à_8_digéré_XbaI-HindIII.jpg"; alt = "Digestion gel of C1 (1-8)"/>
 +
<i><p><U>Figure 12 :</U> Digestion gel of C1 (1-8)</p></i></center>
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
Line 998: Line 1,029:
 
             <figcaption>
 
             <figcaption>
 
               <p>
 
               <p>
               <U> Aim:</U> Make the inserts fitted with the plasmid. <br/> <br/>
+
               <U> Aim:</U> Recombine the inserts with the plasmid. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
<U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/a/ab/T--Pasteur_Paris--Restriction_digestion_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>Materials:</U><br/>
 
               <U>Materials:</U><br/>
Line 1,013: Line 1,044:
 
       1. Prepare a Globalmix : <br/>
 
       1. Prepare a Globalmix : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 96</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 1,058: Line 1,090:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Check if our inserts have been correctly digested by the enzyme. <br/> <br/>
 
               <U> Aim:</U> Check if our inserts have been correctly digested by the enzyme. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
<U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/60/T--Pasteur_Paris--Gel_electrophoresis_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Method:</U><br/>
 
<U>Method:</U><br/>
 
Lane 1 : <br/>
 
Lane 1 : <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 97</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 1,126: Line 1,159:
 
Lane 2: <br/>
 
Lane 2: <br/>
 
                   <table>
 
                   <table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 98</U></p></i></caption>
 
                     <thead>
 
                     <thead>
 
                         <tr>
 
                         <tr>
Line 1,201: Line 1,235:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Get back the DNA which was digested and purified. <br/> <br/>
 
               <U> Aim:</U> Get back the DNA which was digested and purified. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
              <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/4/4e/T--Pasteur_Paris--Gel_extraction_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,209: Line 1,243:
 
<U>Results</U><br/>
 
<U>Results</U><br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 99</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,217: Line 1,252:
 
   <tbody>
 
   <tbody>
 
  <tr>
 
  <tr>
<td align="center" ; valign = “center”> C1.2 </td>
+
<td align="center" ; valign = “center”><strong><p> C1.2 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3435 </td>
 
<td align="center" ; valign = “center”> 1.3435 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C1.4 </td>
+
<td align="center" ; valign = “center”><strong><p> C1.4 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3564 </td>
 
<td align="center" ; valign = “center”> 1.3564 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C1.5 </td>
+
<td align="center" ; valign = “center”><strong><p> C1.5 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3825 </td>
 
<td align="center" ; valign = “center”> 1.3825 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C1.6 </td>
+
<td align="center" ; valign = “center”><strong><p> C1.6 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.4318 </td>
 
<td align="center" ; valign = “center”> 1.4318 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C1.7 </td>
+
<td align="center" ; valign = “center”><strong><p> C1.7 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.4392 </td>
 
<td align="center" ; valign = “center”> 1.4392 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C1.8 </td>
+
<td align="center" ; valign = “center”><strong><p> C1.8 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3564 </td>
 
<td align="center" ; valign = “center”> 1.3564 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C1.10 </td>
+
<td align="center" ; valign = “center”><strong><p> C1.10 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3800 </td>
 
<td align="center" ; valign = “center”> 1.3800 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C2.1 </td>
+
<td align="center" ; valign = “center”><strong><p> C2.1 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3179 </td>
 
<td align="center" ; valign = “center”> 1.3179 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C2.2 </td>
+
<td align="center" ; valign = “center”><strong><p> C2.2 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.2500 </td>
 
<td align="center" ; valign = “center”> 1.2500 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C2.3 </td>
+
<td align="center" ; valign = “center”><strong><p> C2.3 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3910 </td>
 
<td align="center" ; valign = “center”> 1.3910 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C2.9 </td>
+
<td align="center" ; valign = “center”><strong><p> C2.9 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3668 </td>
 
<td align="center" ; valign = “center”> 1.3668 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> C2.10 </td>
+
<td align="center" ; valign = “center”><strong><p> C2.10 </p></strong></td>
 
<td align="center" ; valign = “center”> 1.3934 </td>
 
<td align="center" ; valign = “center”> 1.3934 </td>
 
</tr>
 
</tr>
Line 1,280: Line 1,315:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Put the insert into the plasmid and transform the plasmid into bacteria. <br/> <br/>
 
               <U> Aim:</U> Put the insert into the plasmid and transform the plasmid into bacteria. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/6f/T--Pasteur_Paris--Ligation_protocol.pdf">link</a><br/><br/>
 
<U>Results (on the August 4, 2016)</U><br/>
 
<U>Results (on the August 4, 2016)</U><br/>
 
Several colonies have grown but they are too small so we let them grow more. But C1.2 has much more colonies so we spread it into another Petri dish. <br/><br/><br/>
 
Several colonies have grown but they are too small so we let them grow more. But C1.2 has much more colonies so we spread it into another Petri dish. <br/><br/><br/>
Line 1,296: Line 1,331:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Get back the DNA from bacteria. <br/> <br/>
 
               <U> Aim:</U> Get back the DNA from bacteria. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
              <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/d/d5/T--Pasteur_Paris--Miniprep_protocol.pdf">link</a><br/><br/>
 +
<U> Results </U><br/>
 +
<center><img scr = "https://static.igem.org/mediawiki/2016/2/2b/Week_9_Figure_4_gel_miniprep_topocloning_de_B1_et_B2_colonies_1_a_10_digéré_X%2BH_05-05-16.jpg"; alt = "Digestion gel of B1/B2 (1-10)"/>
 +
<i><p><U>Figure 13 :</U> Digestion gel of B1/B2 (1-10)</p></i></center>
 +
<center><img scr = "https://static.igem.org/mediawiki/2016/c/cf/Week_9_Figure_5_gel_miniprep_topocloning_de_E1_et_E2_colonies_1_a_10_digéré_X%2BH_05-05-16.jpg"; alt = "Digestion gel of E1/E2 (1-10)"/>
 +
<i><p><U>Figure 14 :</U> Digestion gel of E1/E2 (1-10)</p></i></center>
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
Line 1,311: Line 1,351:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Prepare the ligation. <br/> <br/>
 
               <U> Aim:</U> Prepare the ligation. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
              <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/a/ab/T--Pasteur_Paris--Restriction_digestion_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,325: Line 1,365:
 
1. Make a master mix with : <br/>
 
1. Make a master mix with : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 100</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,380: Line 1,421:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Avoid the religation of the plasmid with itself. <br/> <br/>
 
               <U> Aim:</U> Avoid the religation of the plasmid with itself. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/c/c0/T--Pasteur_Paris--dephosphorylation_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,394: Line 1,435:
 
1. In a 1.5 ml Eppendorf, put : <br/>
 
1. In a 1.5 ml Eppendorf, put : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 101</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,439: Line 1,481:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Increase the quantity of DNA. <br/> <br/>
 
               <U> Aim:</U> Increase the quantity of DNA. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/b/be/T--Pasteur_Paris--PCR_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,457: Line 1,499:
 
1. Prepare the mix : <br/>
 
1. Prepare the mix : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 102</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,465: Line 1,508:
 
   <tbody>
 
   <tbody>
 
  <tr>
 
  <tr>
<td align="center" ; valign = “center”><strong><p> dNTP </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> dNTPs </p></strong></td>
 
<td align="center" ; valign = “center”> 12.5 </td>
 
<td align="center" ; valign = “center”> 12.5 </td>
 
</tr>
 
</tr>
Line 1,481: Line 1,524:
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”><strong><p> Primer S </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> Primer S (For) </p></strong></td>
 
<td align="center" ; valign = “center”> 5 </td>
 
<td align="center" ; valign = “center”> 5 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”><strong><p> Primer AS </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> Primer AS(Rev) </p></strong></td>
 
<td align="center" ; valign = “center”> 5 </td>
 
<td align="center" ; valign = “center”> 5 </td>
 
</tr>
 
</tr>
Line 1,496: Line 1,539:
 
2. To put the sample into the PCR machine, use the table : <br/>
 
2. To put the sample into the PCR machine, use the table : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 103</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,546: Line 1,590:
 
</tbody>
 
</tbody>
 
</table><br/>
 
</table><br/>
3. For hot start PCR, launch the PCR machine and once it is at 95°C, add 0.5 &#956;l of Takara enzyme in each tube
+
3. For hot start PCR, launch the PCR machine and once it is at 95°C, add 0.5 &#956;l of Takara enzyme in each tube<br/><br/>
 +
<U>Results</U><br/>
 +
<center><img scr = "https://static.igem.org/mediawiki/2016/c/ca/Week_9_Figure_6_PCR_A1_A2_D1_D2_sans_MgCl2_04-08-16.jpg"; alt = "PCR gel of A1/A2/D1/D2 without MGCl<sub>2</sub>"/>
 +
<i><p><U>Figure 15 :</U> PCR gel of A1/A2/D1/D2 without MGCl<sub>2</sub> </p></i></center>
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
Line 1,561: Line 1,608:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Have more bacteria with the insert A. <br/> <br/>
 
               <U> Aim:</U> Have more bacteria with the insert A. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/4/4b/T--Pasteur_Paris--Bacterial_culture_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,592: Line 1,639:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Check if the PCR is efficient. <br/> <br/>
 
               <U> Aim:</U> Check if the PCR is efficient. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/60/T--Pasteur_Paris--Gel_electrophoresis_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,604: Line 1,651:
 
1. Make a 0.7&#37; agarose gel <br/>
 
1. Make a 0.7&#37; agarose gel <br/>
 
2. Add 5 &#956;l of DNA and 1 &#956;l of loading buffer. But we used 10 &#956;l of DNA for the sample 4 <br/>
 
2. Add 5 &#956;l of DNA and 1 &#956;l of loading buffer. But we used 10 &#956;l of DNA for the sample 4 <br/>
3. Depose the sample for the electrophorese like this : <br/>
+
3. Deposit the sample for the electrophoresis according to this: <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 104</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,649: Line 1,697:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Increase the quantity of DNA. <br/> <br/>
 
               <U> Aim:</U> Increase the quantity of DNA. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/b/be/T--Pasteur_Paris--PCR_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,664: Line 1,712:
 
1. Make a Globalmix with : <br/>
 
1. Make a Globalmix with : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 105</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,672: Line 1,721:
 
   <tbody>
 
   <tbody>
 
  <tr>
 
  <tr>
<td align="center" ; valign = “center”><strong><p> dNTP </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> dNTPs </p></strong></td>
 
<td align="center" ; valign = “center”> 72.5 </td>
 
<td align="center" ; valign = “center”> 72.5 </td>
 
</tr>
 
</tr>
Line 1,703: Line 1,752:
 
2. Prepare the samples : <br/>
 
2. Prepare the samples : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 106</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,740: Line 1,790:
 
3. Deposit the samples on the gel: <br/>
 
3. Deposit the samples on the gel: <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 107</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,801: Line 1,852:
 
</tbody>
 
</tbody>
 
</table><br/>
 
</table><br/>
4. Make a 0.7% agarose gel and perform an electrophoresis with 5 µl of DNA and 1 µl of loading 6X buffer for each sample <br/><br/>
+
4. Make a 0.7% agarose gel and perform an electrophoresis with 5 &#181;l of DNA and 1 &#181;l of loading 6X buffer for each sample <br/><br/>
 
<U>Results</U><br/>
 
<U>Results</U><br/>
<img src = « « ; alt « « />
+
<center><img scr = "https://static.igem.org/mediawiki/2016/5/51/Week_9_Figure_7_Gel_de_la_PCR_A1_A2_B1_B2_D1_D2_E1_E2.jpg"; alt = "PCR gel of A1/A2/B1/B2/D1/D2/E1/E2"/>
 +
<i><p><U>Figure 16 :</U> PCR gel of A1/A2/B1/B2/D1/D2/E1/E2 </p></i></center>
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
Line 1,818: Line 1,870:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Increase the DNA. <br/> <br/>
 
               <U> Aim:</U> Increase the DNA. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
 
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,835: Line 1,886:
 
&emsp;For C1 : 35 &#956;l of NaOAc and 875 &#956;l of ethanol <br/>
 
&emsp;For C1 : 35 &#956;l of NaOAc and 875 &#956;l of ethanol <br/>
 
&emsp;For C2 : 25 &#956;l of NaOAc and 625 &#956;l of ethanol <br/>
 
&emsp;For C2 : 25 &#956;l of NaOAc and 625 &#956;l of ethanol <br/>
3. Mix the samples and incubate 8minutes at -80&#176;C <br/>
+
3. Mix the samples and incubate 8 minutes at -80&#176;C <br/>
4. Centrifuge 5 minutes at 4&#176;C and 15000 RPM. The, throw out the supernatant <br/>
+
4. Centrifuge 5 minutes at 4&#176;C and 15000 RPM. Then, throw out the supernatant <br/>
 
5. Add 1 ml of ethanol ice cold (70&#37;) <br/>
 
5. Add 1 ml of ethanol ice cold (70&#37;) <br/>
 
6. Centrifuge 15 minutes at 4&#176;C and 15000 RPM <br/>
 
6. Centrifuge 15 minutes at 4&#176;C and 15000 RPM <br/>
 
7. Throw out the supernatant and let dry at room temperature <br/>
 
7. Throw out the supernatant and let dry at room temperature <br/>
8. Resuspend the pellet in 50 &#956;l of buffer E
+
8. Resuspend the pellet in 50 &#956;l of buffer E.<br/><br/>
 +
<U>Results</U><br/>
 +
<center><img scr = "https://static.igem.org/mediawiki/2016/f/ff/Week_9_Figure_8_PCR_C1_v2_C2_v2_TakaraEx_01-08-2016.jpg"; alt = "PCR gel of C1 v2 / C2 v2 with Takara enzyme"/>
 +
<i><p><U>Figure 17 :</U> PCR gel of C1 v2 / C2 v2 with Takara enzyme </p></i></center>
 
<br/><br/><br/>
 
<br/><br/><br/>
 
               </p>
 
               </p>
Line 1,854: Line 1,908:
 
             <figcaption>
 
             <figcaption>
 
               <p>
 
               <p>
               <U> Aim:</U> Make the inserts fitted with the plasmid. <br/> <br/>
+
               <U> Aim:</U> Make the inserts ligate with the plasmid. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/a/ab/T--Pasteur_Paris--Restriction_digestion_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
 
&bull; 10 &#956;l, 20 &#956;l and 200 &#956;l pipette <br/>
 
&bull; 10 &#956;l, 20 &#956;l and 200 &#956;l pipette <br/>
 
&bull; Hind III (NEB) <br/>
 
&bull; Hind III (NEB) <br/>
&bull; XbaI (NEB) <br/>
+
&bull; Xba I (NEB) <br/>
 
&bull; Buffer CutSmart <br/>
 
&bull; Buffer CutSmart <br/>
 
&bull; H<sub>2</sub>O <br/>
 
&bull; H<sub>2</sub>O <br/>
Line 1,868: Line 1,922:
 
1. Make a Globalmix with : <br/>
 
1. Make a Globalmix with : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 108</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,876: Line 1,931:
 
   <tbody>
 
   <tbody>
 
  <tr>
 
  <tr>
<td align="center" ; valign = “center”><strong><p> HindIII </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> Hind III </p></strong></td>
 
<td align="center" ; valign = “center”> 45 </td>
 
<td align="center" ; valign = “center”> 45 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”><strong><p> XbaI </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> Xba I </p></strong></td>
 
<td align="center" ; valign = “center”> 45 </td>
 
<td align="center" ; valign = “center”> 45 </td>
 
</tr>
 
</tr>
Line 1,899: Line 1,954:
 
2. Distribute this global mix in each of our 4 tubes so they will contain : <br/>
 
2. Distribute this global mix in each of our 4 tubes so they will contain : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 109</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,911: Line 1,967:
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”><strong><p> HindIII </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> Hind III </p></strong></td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”><strong><p> XbaI </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> Xb aI </p></strong></td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
 
</tr>
 
</tr>
Line 1,948: Line 2,004:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Prepare the plasmid for the transformation. <br/> <br/>
 
               <U> Aim:</U> Prepare the plasmid for the transformation. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/6f/T--Pasteur_Paris--Ligation_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 1,957: Line 2,013:
 
&bull; H<sub>2</sub>O <br/>
 
&bull; H<sub>2</sub>O <br/>
 
&bull; Incubator <br/>
 
&bull; Incubator <br/>
&bull; 10 1#956;l and 20 &#956;l pipettes
+
&bull; 10 &#956;l and 20 &#956;l pipettes
 
<br/><br/>
 
<br/><br/>
 
<U>Method:</U><br/>
 
<U>Method:</U><br/>
 
1. In a 1.5 ml eppendorf, put : <br/>
 
1. In a 1.5 ml eppendorf, put : <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 110</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 1,967: Line 2,024:
 
         <th> C1 </th>
 
         <th> C1 </th>
 
         <th> C2 </th>
 
         <th> C2 </th>
         <th> pET 43.1 alone </th>
+
         <th> pET 43.1 (a+) alone </th>
 
       </tr>
 
       </tr>
 
   </thead>
 
   </thead>
Line 1,983: Line 2,040:
 
<td align="center" ; valign = “center”> &#216; </td>
 
<td align="center" ; valign = “center”> &#216; </td>
 
</tr>
 
</tr>
<td align="center" ; valign = “center”><strong><p> pET 43.1 (&#956;l) </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> pET 43.1a(+) (&#956;l) </p></strong></td>
 
<td align="center" ; valign = “center”> 4 </td>
 
<td align="center" ; valign = “center”> 4 </td>
 
<td align="center" ; valign = “center”> 4 </td>
 
<td align="center" ; valign = “center”> 4 </td>
 
<td align="center" ; valign = “center”> 4 </td>
 
<td align="center" ; valign = “center”> 4 </td>
 
</tr>
 
</tr>
<td align="center" ; valign = “center”><strong><p> T4ligase (&#956;l) </p></strong></td>
+
<td align="center" ; valign = “center”><strong><p> T4 ligase (&#956;l) </p></strong></td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
 
<td align="center" ; valign = “center”> 1 </td>
Line 2,027: Line 2,084:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Express our plasmid in bacteria. <br/> <br/>
 
               <U> Aim:</U> Express our plasmid in bacteria. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/c/ca/T--Pasteur_Paris--Transformation_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Materials</U><br/>
 
<U>Materials</U><br/>
Line 2,035: Line 2,092:
 
Use the Qiagen gel extraction kit for a final volume of 50 &#956;l. <br/>
 
Use the Qiagen gel extraction kit for a final volume of 50 &#956;l. <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 111</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 2,043: Line 2,101:
 
   <tbody>
 
   <tbody>
 
  <tr>
 
  <tr>
<td align="center" ; valign = “center”> B1 colony 1 </td>
+
<td align="center" ; valign = “center”><strong><p> B1 colony 1 </p></strong></td>
 
<td align="center" ; valign = “center”> 136 </td>
 
<td align="center" ; valign = “center”> 136 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> B1 colony 2 </td>
+
<td align="center" ; valign = “center”><strong><p> B1 colony 2 </p></strong></td>
 
<td align="center" ; valign = “center”> 170 </td>
 
<td align="center" ; valign = “center”> 170 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> B2 colony 4 </td>
+
<td align="center" ; valign = “center”><strong><p> B2 colony 4 </p></strong></td>
 
<td align="center" ; valign = “center”> 166 </td>
 
<td align="center" ; valign = “center”> 166 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> B2 colony 7 </td>
+
<td align="center" ; valign = “center”><strong><p> B2 colony 7 </strong></p></td>
 
<td align="center" ; valign = “center”> 175 </td>
 
<td align="center" ; valign = “center”> 175 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> E1 colony 1 </td>
+
<td align="center" ; valign = “center”><strong><p> E1 colony 1 </strong></p></td>
 
<td align="center" ; valign = “center”> 110 </td>
 
<td align="center" ; valign = “center”> 110 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> E1 colony 2 </td>
+
<td align="center" ; valign = “center”><strong><p> E1 colony 2 </strong></p></td>
 
<td align="center" ; valign = “center”> 143 </td>
 
<td align="center" ; valign = “center”> 143 </td>
 
</tr>
 
</tr>
 
<tr>
 
<tr>
<td align="center" ; valign = “center”> E2 colony 1 </td>
+
<td align="center" ; valign = “center”><strong><p> E2 colony 1 </p></strong></td>
 
<td align="center" ; valign = “center”> 108 </td>
 
<td align="center" ; valign = “center”> 108 </td>
 
</tr>
 
</tr>
Line 2,090: Line 2,148:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Ligate our inserts with the plasmid. <br/> <br/>
 
               <U> Aim:</U> Ligate our inserts with the plasmid. <br/> <br/>
              <U> Protocol:</U> follow in this link<br/><br/>
+
              <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/6/6f/T--Pasteur_Paris--Ligation_protocol.pdf">link</a><br/><br/>
 
               <U>What we did in the lab:</U><br/>
 
               <U>What we did in the lab:</U><br/>
 
<U>Method:</U><br/>
 
<U>Method:</U><br/>
 
We use the next volumes: <br/>
 
We use the next volumes: <br/>
 
<table>
 
<table>
 +
<caption align="bottom" align="center"><i><p> <U>Table 112</U></p></i></caption>
 
   <thead>
 
   <thead>
 
       <tr>
 
       <tr>
Line 2,138: Line 2,197:
 
               <p>
 
               <p>
 
               <U> Aim:</U> Put our ligated plasmid into bacteria. <br/> <br/>
 
               <U> Aim:</U> Put our ligated plasmid into bacteria. <br/> <br/>
               <U> Protocol:</U> follow in this link<br/><br/>
+
               <U> Protocol:</U> follow in this <a href="https://static.igem.org/mediawiki/2016/c/ca/T--Pasteur_Paris--Transformation_protocol.pdf">link</a><br/><br/>
 
<U>Results</U><br/>
 
<U>Results</U><br/>
 
48 hours later, no colony had grown so the transformation did not work, it has to be redone.
 
48 hours later, no colony had grown so the transformation did not work, it has to be redone.
Line 2,147: Line 2,206:
 
     </div>
 
     </div>
 
</body>
 
</body>
 
 
</html>
 
</html>

Latest revision as of 02:15, 20 October 2016