Difference between revisions of "Team:UCLouvain/Protocols"

 
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<div class="page-title">
 
<div class="page-title">
 
<div class="big-title montserrat-text uppercase">In the Lab</div>
 
<div class="big-title montserrat-text uppercase">In the Lab</div>
<div class="small-title montserrat-text uppercase">Protocols</div>
+
<div class="small-title montserrat-text uppercase"><br><Marine style="margin-left:32px;font-family:'Brush Script MT';font-size:32px;text-transform:none;font-weight:bold;">Protocols</Marine></div>
 
</div>
 
</div>
 
</div>
 
</div>
  
<section>
+
<section>
<div class="container">
+
<div class="container">
<div class="row" style="margin-bottom: 40px;">
+
<div class="row" style="margin-bottom: 40px;">
+
<div class="col-md-12">
+
<div class="col-md-12">
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<span>DNA Gel electrophoresis</span>
+
<span>DNA Gel electrophoresis</span>
</div>
+
</div>
 +
<BR><BR>
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
                        <p class="montserrat-text uppercase">Introduction</p>
+
<p class="montserrat-text uppercase">Materials</p>
<p class="montserrat-text uppercase">Materials</p>
+
</div>
</div>
+
<BR><BR>
 +
<ul>
  
<ul>
+
<li style="color:#999999;margin-left:20px;">Agarose Powder</li>
<li style="color:#999999;margin-left:20px;">Agarose Powder</li>
+
<li style="color:#999999;margin-left:20px;">TAE buffer</li>
<li style="color:#999999;margin-left:20px;">TAE buffer</li>
+
<li style="color:#999999;margin-left:20px;">Gel mould</li>
<li style="color:#999999;margin-left:20px;">Gel mould</li>
+
<li style="color:#999999;margin-left:20px;">Gel Tank</li>
<li style="color:#999999;margin-left:20px;">Gel Tank</li>
+
<li style="color:#999999;margin-left:20px;">DNA ladder</li>
<li style="color:#999999;margin-left:20px;">DNA ladder</li>
+
<li style="color:#999999;margin-left:20px;">DNA loading dye</li>
<li style="color:#999999;margin-left:20px;">DNA loading dye</li>
+
</ul>
</ul>
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<p class="montserrat-text uppercase">Procedure</p>
+
<p class="montserrat-text uppercase">Procedure</p>
</div>
+
</div>
 +
<BR><BR>
 +
<ol type="1">
  
<ol type="1">
+
<li style="color:#999999;margin-left:20px;">Prepare 0.8% agarose (w/v) solution in TAE buffer.</li>
<li style="color:#999999;margin-left:20px;">Prepare 0.8% agarose (w/v) solution in TAE buffer.</li>
+
<li style="color:#999999;margin-left:20px;">Heat until the agarose dissolve.</li>
<li style="color:#999999;margin-left:20px;">Heat until the agarose dissolve.</li>
+
<li style="color:#999999;margin-left:20px;">Pour into the gel mould and set a comb.</li>
<li style="color:#999999;margin-left:20px;">Pour into the gel mould and set a comb.</li>
+
<li style="color:#999999;margin-left:20px;">Wait for the gel to solidify.</li>
<li style="color:#999999;margin-left:20px;">Wait for the gel to solidify.</li>
+
<li style="color:#999999;margin-left:20px;">Remove the comb and transfer into the gel tank. Fill with TAE buffer.</li>
<li style="color:#999999;margin-left:20px;">Remove the comb and transfer into the gel tank. Fill with TAE buffer.</li>
+
<li style="color:#999999;margin-left:20px;">Fill the wells with DNA ladder and your samples mixed with corresponding amount of loading dye.</li>
<li style="color:#999999;margin-left:20px;">Fill the wells with DNA ladder and your samples mixed with corresponding amount of loading dye.</li>
+
<li style="color:#999999;margin-left:20px;">Run for 20-30 minutes at 120 V.</li>
<li style="color:#999999;margin-left:20px;">Run for 20-30 minutes at 120 V.</li>
+
</ol>
</ol>
+
                        <BR><BR>
+
<div class="col-md-12">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<span>T4 Ligation</span>
+
</div>
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
                        </div>
<p class="montserrat-text uppercase">Materials</p>
+
</div>
+
  
<ul>
+
<li style="color:#999999;margin-left:20px;">PCR tubes</li>
+
<li style="color:#999999;margin-left:20px;">T4 DNA Ligase (NEB)</li>
+
<div class="col-md-12">
<li style="color:#999999;margin-left:20px;">T4 DNA Ligase buffer 10x</li>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">ddH20</li>
+
<span>T4 Ligation</span>
<li style="color:#999999;margin-left:20px;">Insert DNA</li>
+
</div>
</ul>
+
<BR><BR>
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<p class="montserrat-text uppercase">Procedure</p>
+
<p class="montserrat-text uppercase">Materials</p>
</div>
+
</div>
 +
<BR><BR>
 +
<ul>
 +
<li style="color:#999999;margin-left:20px;">PCR tubes</li>
 +
<li style="color:#999999;margin-left:20px;">T4 DNA Ligase (NEB)</li>
 +
<li style="color:#999999;margin-left:20px;">T4 DNA Ligase buffer 10x</li>
 +
<li style="color:#999999;margin-left:20px;">ddH20</li>
 +
<li style="color:#999999;margin-left:20px;">Insert DNA</li>
 +
</ul>
 +
<BR><BR>
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Procedure</p>
 +
</div>
 +
<BR><BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Calculate insert to vector ratio with NEB calculator. Most common is 3:1.</li>
 +
<li style="color:#999999;margin-left:20px;">Add the vector plasmid, the insert DNA, 2 µL of buffer, 1 µL of T4 ligase and enough ddH20 to reach 20 µL.</li>
 +
<li style="color:#999999;margin-left:20px;">Gently mix by pipeting up and down.</li>
 +
<li style="color:#999999;margin-left:20px;">For cohesive (sticky) ends, incubate at 16°C overnight or room temperature for 10 minutes. For blunt ends or single base overhangs, incubate at 16°C overnight or room temperature for 2 hours.</li>
 +
<li style="color:#999999;margin-left:20px;">Heat inactivate at 65°C for 10 minutes.</li>
 +
</ol>
 +
 +
<BR><BR>
  
<ol type="1">
+
                        </div>
<li style="color:#999999;margin-left:20px;">Calculate insert to vector ratio with NEB calculator. Most common is 3:1.</li>
+
<div class="col-md-12">
<li style="color:#999999;margin-left:20px;">Add the vector plasmid, the insert DNA, 2 µL of buffer, 1 µL of T4 ligase and enough ddH20 to reach 20 µL.</li>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">Gently mix by pipeting up and down.</li>
+
<span>Selection of the sgRNA and modification of pTarget</span>
<li style="color:#999999;margin-left:20px;">For cohesive (sticky) ends, incubate at 16°C overnight or room temperature for 10 minutes. For blunt ends or single base overhangs, incubate at 16°C overnight or room temperature for 2 hours.</li>
+
</div>
<li style="color:#999999;margin-left:20px;">Heat inactivate at 65°C for 10 minutes.</li>
+
<BR><BR>
</ol>
+
+
<div class="col-md-12">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<span>Selection of the sgRNA and modification of pTarget</span>
+
</div>
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<p class="montserrat-text uppercase">Introduction</p>
+
<p class="montserrat-text uppercase">Introduction</p>
</div>
+
</div>
  
<p>
+
<p>
This protocol cover the identification of a suitable N20 sequence and the modification of the pTarget plasmid. Protocol from S. Worms.
+
This protocol cover the identification of a suitable N20 sequence and the modification of the pTarget plasmid. Protocol from S. Worms.
</p>
+
</p>
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<p class="montserrat-text uppercase">Procedure</p>
+
<p class="montserrat-text uppercase">Procedure</p>
</div>
+
</div>
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<p class="montserrat-text uppercase">1) Selection of the N20 sequence</p>
+
<p class="montserrat-text uppercase">1) Selection of the N20 sequence</p>
</div>
+
</div>
 +
<BR><BR>
 +
                        <BR><BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Use Benchling's CRISPR tool, click on "Design and analyse guide"</li>
 +
<li style="color:#999999;margin-left:20px;">Using the default settings (note: Doench et al.'s optimized scoring algorithm doesn't work for circular sequences such as bacterial chromosomes)</li>
 +
<li style="color:#999999;margin-left:20px;">Select the target region and press (+)</li>
 +
<li style="color:#999999;margin-left:20px;">Select the N20 with the higher On-target score.</li>
 +
</ol>
  
<ol type="1">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">Use Benchling's CRISPR tool, click on "Design and analyse guide"</li>
+
<p class="montserrat-text uppercase">2) Modification of pTarget</p>
<li style="color:#999999;margin-left:20px;">Using the default settings (note: Doench et al.'s optimized scoring algorithm doesn't work for circular sequences such as bacterial chromosomes)</li>
+
</div>
<li style="color:#999999;margin-left:20px;">Select the target region and press (+)</li>
+
<li style="color:#999999;margin-left:20px;">Select the N20 with the higher On-target score.</li>
+
</ol>
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<p>
<p class="montserrat-text uppercase">2) Modification of pTarget</p>
+
pTarget is currently available in two version, pTargetF with spectinomycin resistance and pTargetTet_pyrF and its derivatives with a tetracyclin resistance. They should behave identically.</p>
</div>
+
<BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Design a forward oligo to use for a QuickChange-like insertion of the N20 sequence. The sequence of the primer should be the following:</li>
 +
                        <p>agctagctcagtcctaggtataatactagtNNNNNNNNNNNNNNNNNNNNgttttagagctagaaatagcaagttaaaa</p>
 +
                        <p>where the Ns stands for your N20 sequence.</p>
 +
<li style="color:#999999;margin-left:20px;">Amplify the pTarget backbone of your choice using the designed forward primer and the appropriate reverse primer (actagtattatacctaggactgagctagctg) using Q5 polymerase and the following conditions:</li>
 +
<BR><BR>
 +
</ol>
 +
 +
<table>
 +
<tr>
 +
<th style="padding:10px;border:1px solid #999;">Temperature (°C)</th>
 +
<th style="padding:10px;border:1px solid #999;">Time</th>
 +
<th style="padding:10px;border:1px solid #999;"></th>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">98</td>
 +
<td style="padding:10px;border:1px solid #999;">30 s</td>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">98</td>
 +
<td style="padding:10px;border:1px solid #999;">15 s</td>
 +
<td style="padding:10px;border:1px solid #999;" rowspan="3">35 x</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">65</td>
 +
<td style="padding:10px;border:1px solid #999;">30 s</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">72</td>
 +
<td style="padding:10px;border:1px solid #999;">75 s</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">72</td>
 +
<td style="padding:10px;border:1px solid #999;">120 s</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">4</td>
 +
<td style="padding:10px;border:1px solid #999;">inf.</td>
 +
</tr>
 +
</table>
 +
 +
<BR><BR>
  
<p>
+
                        </div>
pTarget is currently available in two version, pTargetF with spectinomycin resistance and pTargetTet_pyrF and its derivatives with a tetracyclin resistance. They should behave identically.
+
<div class="col-md-12">
<BR>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
1. Design a forward oligo to use for a QuickChange-like insertion of the N20 sequence. The sequence of the primer should be the following:
+
<span>Media</span>
<BR>
+
</div>
agctagctcagtcctaggtataatactagtNNNNNNNNNNNNNNNNNNNNgttttagagctagaaatagcaagttaaaa
+
<BR><BR>
<BR>
+
 
where the Ns stands for your N20 sequence.
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<BR>
+
<p class="montserrat-text uppercase">Materials</p>
2. Amplify the pTarget backbone of your choice using the designed forward primer and the appropriate reverse primer (actagtattatacctaggactgagctagctg) using Q5 polymerase and the following conditions:
+
</div>
</p>
+
<BR><BR>
 +
<ul>
 +
<li style="color:#999999;margin-left:20px;">NaCl</li>
 +
<li style="color:#999999;margin-left:20px;">Tryptone</li>
 +
<li style="color:#999999;margin-left:20px;">Yeast Extract</li>
 +
<li style="color:#999999;margin-left:20px;">Na2HPO4</li>
 +
<li style="color:#999999;margin-left:20px;">KH2PO4</li>
 +
<li style="color:#999999;margin-left:20px;">NH4Cl</li>
 +
<li style="color:#999999;margin-left:20px;">Glucose</li>
 +
<li style="color:#999999;margin-left:20px;">Tyrosine</li>
 +
<li style="color:#999999;margin-left:20px;">ddH20</li>
 +
<li style="color:#999999;margin-left:20px;">CaSO5</li>
 +
<li style="color:#999999;margin-left:20px;">MgSO4</li>
 +
<li style="color:#999999;margin-left:20px;">Agar</li>
 +
<li style="color:#999999;margin-left:20px;">Heat-resistant glass bottles</li>
 +
</ul>
 +
 
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Procedure M9 medium</p>
 +
</div>
 +
<BR><BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Make 10xM9 salts.</li>
 +
<li style="color:#999999;margin-left:20px;">Mix the following in 500 mL H20 and sterilize by autoclave.</li>
 +
<BR><BR>
 +
<table>
 +
<tr>
 +
<th style="padding:10px;border:1px solid #999;"></th>
 +
<th style="padding:10px;border:1px solid #999;">Mass (g)</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">Na2HPO4</td>
 +
<td style="padding:10px;border:1px solid #999;">64 (Na2HPO4.7H2O) </td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">KH2PO4</td>
 +
<td style="padding:10px;border:1px solid #999;">15 </td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">NaCl </td>
 +
<td style="padding:10px;border:1px solid #999;">2.5 </td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">NH4Cl </td>
 +
<td style="padding:10px;border:1px solid #999;">5 </td>
 +
</tr>
 +
</table>
 +
<BR><BR>
 +
<li style="color:#999999;margin-left:20px;">Make 1M CaCl2 stock solution. The CaCl2 is sterilized separately to avoid formation of CaSO4 precipitate. Dissolve 5.592 g CaC2 to 50 mL H2O and sterilize by filtration or autoclaving.</li>
 +
<li style="color:#999999;margin-left:20px;">Make 1M MgSO4 stock solution.</li>
 +
<li style="color:#999999;margin-left:20px;">Make 20% glucose solution. Dissolve 10g of glucose in 50 mL H2O and sterilize by filtration. Do not autoclave. Dissolve 6.018 g of MgSO4 in 50 mL H2O and sterilize by filtration or autoclaving.</li>
 +
<li style="color:#999999;margin-left:20px;">Make 5x tyrosine solution. Dissolve 0.25 g of tyrosine in 1L H2O and sterilize by filtration.</li>
 +
<li style="color:#999999;margin-left:20px;">Sterilize water by autoclaving.</li>
 +
<li style="color:#999999;margin-left:20px;">For 500 mL.</li>
 +
<BR><BR>
 +
<table>
 +
<tr>
 +
<th style="padding:10px;border:1px solid #999;"></th>
 +
<th style="padding:10px;border:1px solid #999;">M9</th>
 +
<th style="padding:10px;border:1px solid #999;">M9 + Tyr</th>
 +
<th style="padding:10px;border:1px solid #999;">M9 Agar</th>
 +
<th style="padding:10px;border:1px solid #999;">M9 Agar + Tyr</th>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">10x M9 salts</td>
 +
<td style="padding:10px;border:1px solid #999;">50 </td>
 +
<td style="padding:10px;border:1px solid #999;">50 </td>
 +
<td style="padding:10px;border:1px solid #999;">50 </td>
 +
<td style="padding:10px;border:1px solid #999;">50 </td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">Agar (g)</td>
 +
<td style="padding:10px;border:1px solid #999;">0 </td>
 +
<td style="padding:10px;border:1px solid #999;">0 </td>
 +
<td style="padding:10px;border:1px solid #999;">7.5 </td>
 +
<td style="padding:10px;border:1px solid #999;">7.5 </td>
 
 
<table>
+
</tr>
<tr>
+
<tr>
<th style="padding:10px;border:1px solid #999;">Temperature (°C)</th>
+
<td style="padding:10px;border:1px solid #999;">H2O </td>
<th style="padding:10px;border:1px solid #999;">Time</th>
+
<td style="padding:10px;border:1px solid #999;">445 </td>
<th style="padding:10px;border:1px solid #999;"></th>
+
<td style="padding:10px;border:1px solid #999;">345 </td>
</tr>
+
<td style="padding:10px;border:1px solid #999;">445 </td>
<tr>
+
<td style="padding:10px;border:1px solid #999;">345 </td>
<td style="padding:10px;border:1px solid #999;">98</td>
+
</tr>
<td style="padding:10px;border:1px solid #999;">30 s</td>
+
<tr>
<td style="padding:10px;border:1px solid #999;"></td>
+
<td style="padding:10px;border:1px solid #999;">Autoclave </td>
</tr>
+
<td style="padding:10px;border:1px solid #999;">No </td>
<tr>
+
<td style="padding:10px;border:1px solid #999;">No </td>
<td style="padding:10px;border:1px solid #999;">98</td>
+
<td style="padding:10px;border:1px solid #999;">Yes </td>
<td style="padding:10px;border:1px solid #999;">15 s</td>
+
<td style="padding:10px;border:1px solid #999;">Yes </td>
<td style="padding:10px;border:1px solid #999;" rowspan="3">35 x</td>
+
</tr>
</tr>
+
<tr>
<tr>
+
<td style="padding:10px;border:1px solid #999;">M1 MgSO4 </td>
<td style="padding:10px;border:1px solid #999;">65</td>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
<td style="padding:10px;border:1px solid #999;">30 s</td>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
</tr>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
<tr>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
<td style="padding:10px;border:1px solid #999;">72</td>
+
</tr>
<td style="padding:10px;border:1px solid #999;">75 s</td>
+
<tr>
</tr>
+
<td style="padding:10px;border:1px solid #999;">M1 CaSO4 </td>
<tr>
+
<td style="padding:10px;border:1px solid #999;">0,1 </td>
<td style="padding:10px;border:1px solid #999;">72</td>
+
<td style="padding:10px;border:1px solid #999;">0,01 </td>
<td style="padding:10px;border:1px solid #999;">120 s</td>
+
<td style="padding:10px;border:1px solid #999;">0,01 </td>
</tr>
+
<td style="padding:10px;border:1px solid #999;">0,1 </td>
<tr>
+
</tr>
<td style="padding:10px;border:1px solid #999;">4</td>
+
<tr>
<td style="padding:10px;border:1px solid #999;">inf.</td>
+
<td style="padding:10px;border:1px solid #999;">20% glucose </td>
</tr>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
</table>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
<div class="col-md-12">
+
<td style="padding:10px;border:1px solid #999;">5 </td>
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
</tr>
<span>Media</span>
+
<tr>
</div>
+
<td style="padding:10px;border:1px solid #999;">Tyrosine </td>
 +
<td style="padding:10px;border:1px solid #999;">0 </td>
 +
<td style="padding:10px;border:1px solid #999;">100 </td>
 +
<td style="padding:10px;border:1px solid #999;">0 </td>
 +
<td style="padding:10px;border:1px solid #999;">100 </td>
 +
</tr>
 +
</table>
 +
</ol>
 +
 +
<BR><BR>
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Procedure LB medium</p>
 +
</div>
 +
<BR><BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Mix the following.</li>
 +
<BR><BR>
 +
<table>
 +
<tr>
 +
<th style="padding:10px;border:1px solid #999;">Volume (1L)</th>
 +
<th style="padding:10px;border:1px solid #999;"></th>
 +
<th style="padding:10px;border:1px solid #999;"></th>
 +
</tr>
 +
<tr>
 +
<th style="padding:10px;border:1px solid #999;"></th>
 +
<th style="padding:10px;border:1px solid #999;"> LB</td>
 +
<td style="padding:10px;border:1px solid #999;">LB agar</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">Yeast Extract (g)</td>
 +
<td style="padding:10px;border:1px solid #999;">8 </td>
 +
<td style="padding:10px;border:1px solid #999;">8</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">Tryptone (g)</td>
 +
<td style="padding:10px;border:1px solid #999;">5 </td>
 +
<td style="padding:10px;border:1px solid #999;">5</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">NaCl (g)</td>
 +
<td style="padding:10px;border:1px solid #999;">5 </td>
 +
<td style="padding:10px;border:1px solid #999;">5</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">Agar (g)</td>
 +
<td style="padding:10px;border:1px solid #999;">0 </td>
 +
<td style="padding:10px;border:1px solid #999;">14</td>
 +
</tr>
 +
</table>
 +
<BR><BR>
 +
<li style="color:#999999;margin-left:20px;">Add ddH2O to the desired volume.</li>
 +
<li style="color:#999999;margin-left:20px;">Sterilize by autoclaving.</li>
 +
</ol>
 +
 +
<BR><BR>
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
                        </div>
<p class="montserrat-text uppercase">Materials</p>
+
<div class="col-md-12">
</div>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<span>Genome modification of E. coli using recombineering and CRISPR/Cas9</span>
 +
</div>
 +
<BR><BR>
 +
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Introduction</p>
 +
</div>
 +
 +
<p>
 +
This protocol is adapted from Jiang et al., 2015. It assumes a version of pTargetTet targeting the correct locus of the E. coli genome has already been created, as well as a donor DNA that include overlap regions and the gene to be inserted. For information on the design and creation of the sgRNA-producing pTarget, see Selection of the sgRNA and modification of pTarget.
 +
</p>
 +
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Materials</p>
 +
</div>
 +
<BR><BR>
 +
<ul>
 +
<li style="color:#999999;margin-left:20px;">E. coli strain containing the pCas plasmid.</li>
 +
<li style="color:#999999;margin-left:20px;">pTargetTet targeting the locus to be modified.</li>
 +
<li style="color:#999999;margin-left:20px;">Donor DNA: gene of interest flanked by two 500-bp overlaps, or an ssDNA for deletion.</li>
 +
<li style="color:#999999;margin-left:20px;">LB, Kanamycin, Tetracyclin.</li>
 +
<li style="color:#999999;margin-left:20px;">Arabinose 10%.</li>
 +
<li style="color:#999999;margin-left:20px;">Chilled sterile ddH2O.</li>
 +
<li style="color:#999999;margin-left:20px;">Sterile PEP tube.</li>
 +
<li style="color:#999999;margin-left:20px;">IPTG 0,1 M.</li>
 +
</ul>
 +
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Procedure</p>
 +
</div>
 +
 +
<p>
 +
pCas has a thermo-sensitive origin of replication. All steps until pCas curing should be incubated at 30°C.
 +
</p>
 +
 +
<p><b>Day 1</b></p>
 +
 +
<ul>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Start a 5 ml pre-culture of TOP10 pCas in LB-Kanamycin. Incubate it overnight at 30°C without shaking.</li>
 +
</ol>
 +
</ul>
 +
 +
<p><b>Day 2</b></p>
 +
 +
<p><i>Competent cells</i></p>
  
<ul>
+
<ol type="1">
<li style="color:#999999;margin-left:20px;">NaCl</li>
+
<li style="color:#999999;margin-left:20px;">Start a culture for transformation by inoculating 40 ml of LB-Kan with 400 µl of pre-culture. Incubate in a 250 ml flask at 30°C until an OD600 between 0,4 and 0,6 is attained. </li>
<li style="color:#999999;margin-left:20px;">Tryptone</li>
+
<li style="color:#999999;margin-left:20px;">Add 600 µl of 10% arabinose to the culture to cause the induction of the λ-Red genes. Incubate for 15 minutes at 30°C.</li>
<li style="color:#999999;margin-left:20px;">Yeast Extract</li>
+
<li style="color:#999999;margin-left:20px;">Chill the culture in a water-ice bath. Transfer to a 50 ml centrifuge tube and centrifuge at 4600 x g for 7 minutes in a centrifuge cooled to 4°C.</li>
<li style="color:#999999;margin-left:20px;">Na2HPO4</li>
+
<li style="color:#999999;margin-left:20px;">Add 30 ml of ice-cold water to the pellet. Swirl gently to resuspend the cells. Centrifuge again as described in step 5.</li>
<li style="color:#999999;margin-left:20px;">KH2PO4</li>
+
<li style="color:#999999;margin-left:20px;">Resuspend the pellet in 1 ml of cold ddH2O. Transfer it using a 1000 µl tip to a pre-chilled sterile EP tube. Centrifuge down at 10.000 x g for 4 seconds in a chilled tabletop centrifuge. (Note, due to speed-up time, doing a quickspin up to 10.000 x g and then letting it slow down is usually good enough) Carefully pipette out the supernatant.</li>
<li style="color:#999999;margin-left:20px;">NH4Cl</li>
+
<li style="color:#999999;margin-left:20px;">Repeat step 7.</li>
<li style="color:#999999;margin-left:20px;">Glucose</li>
+
<li style="color:#999999;margin-left:20px;">Resuspend cells in 200 µl of chilled ddH2O. Keep on ice until ready to transform.</li>
<li style="color:#999999;margin-left:20px;">Tyrosine</li>
+
</ol>
<li style="color:#999999;margin-left:20px;">ddH20</li>
+
<li style="color:#999999;margin-left:20px;">CaSO5</li>
+
<p><i>Transformation</i></p>
<li style="color:#999999;margin-left:20px;">MgSO4</li>
+
<li style="color:#999999;margin-left:20px;">Agar</li>
+
<li style="color:#999999;margin-left:20px;">Heat-resistant glass bottles</li>
+
</ul>
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<ol type="1">
<p class="montserrat-text uppercase">Procedure M9 medium</p>
+
<li style="color:#999999;margin-left:20px;">Using a 1-mm transformation culture, electroporate 100 ng of pTargetTet plasmid and 400 ng of linear donor DNA in 50 µl of competent cells (Note: when using an ssDNA oligo instead of dsDNA linear donor DNA, transform 100 ng of the plasmid with 100 ng of oligo). Recover the cells at 30°C for 1 hour in SOC medium then plate on LB-Tet-Kan plates. Incubate the plate at 30°C overnight. (Note: it often takes up to 48 hours for colony to show up).</li>
</div>
+
<li style="color:#999999;margin-left:20px;">Screen transformant by colony PCR to identify correct clones.</li>
 +
</ol>
 +
 +
<p><i>Plasmid curing</i></p>
  
<ol type="1">
+
<ol type="1">
<li style="color:#999999;margin-left:20px;">Make 10xM9 salts.</li>
+
<li style="color:#999999;margin-left:20px;">To cure the plasmids, resuspend a colony in 2 ml of LB-Kan to which 10 µl of IPTG 0,1 M are added (Final concentration: 0,5 mM) and the culture is grown overnight at 30 °C. In the morning, the colonies are plated on LB plates and incubated at 37°C O/N to cure them of the pCas plasmid.</li>
<li style="color:#999999;margin-left:20px;">Mix the following in 500 mL H20 and sterilize by autoclave.</li>
+
</ol>
+
<table>
+
<BR><BR>
<tr>
+
<th style="padding:10px;border:1px solid #999;"></th>
+
<th style="padding:10px;border:1px solid #999;">Mass (g)</td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Na2HPO4</td>
+
<td style="padding:10px;border:1px solid #999;">64 (Na2HPO4.7H2O) </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">KH2PO4</td>
+
<td style="padding:10px;border:1px solid #999;">15 </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">NaCl </td>
+
<td style="padding:10px;border:1px solid #999;">2.5 </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">NH4Cl </td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
</tr>
+
</table>
+
+
<li style="color:#999999;margin-left:20px;">Make 1M CaCl2 stock solution. The CaCl2 is sterilized separately to avoid formation of CaSO4 precipitate. Dissolve 5.592 g CaC2 to 50 mL H2O and sterilize by filtration or autoclaving.</li>
+
<li style="color:#999999;margin-left:20px;">Make 1M MgSO4 stock solution.</li>
+
<li style="color:#999999;margin-left:20px;">Make 20% glucose solution. Dissolve 10g of glucose in 50 mL H2O and sterilize by filtration. Do not autoclave. Dissolve 6.018 g of MgSO4 in 50 mL H2O and sterilize by filtration or autoclaving.</li>
+
<li style="color:#999999;margin-left:20px;">Make 5x tyrosine solution. Dissolve 0.25 g of tyrosine in 1L H2O and sterilize by filtration.</li>
+
<li style="color:#999999;margin-left:20px;">Sterilize water by autoclaving.</li>
+
                        <li style="color:#999999;margin-left:20px;">For 500 mL.</li>
+
  
                         <table>
+
                         </div>
<tr>
+
<div class="col-md-12">
<th style="padding:10px;border:1px solid #999;"></th>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<th style="padding:10px;border:1px solid #999;">M9</th>
+
<span>RFP fluorescence test</span>
<th style="padding:10px;border:1px solid #999;">M9 + Tyr</th>
+
</div>
<th style="padding:10px;border:1px solid #999;">M9 Agar</th>
+
<BR><BR>
<th style="padding:10px;border:1px solid #999;">M9 Agar + Tyr</th>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">10x M9 salts</td>
+
<td style="padding:10px;border:1px solid #999;">50 </td>
+
<td style="padding:10px;border:1px solid #999;">50 </td>
+
<td style="padding:10px;border:1px solid #999;">50 </td>
+
<td style="padding:10px;border:1px solid #999;">50 </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Agar (g)</td>
+
<td style="padding:10px;border:1px solid #999;">0 </td>
+
<td style="padding:10px;border:1px solid #999;">0 </td>
+
<td style="padding:10px;border:1px solid #999;">7.5 </td>
+
<td style="padding:10px;border:1px solid #999;">7.5 </td>
+
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">H2O </td>
+
<td style="padding:10px;border:1px solid #999;">445 </td>
+
<td style="padding:10px;border:1px solid #999;">345 </td>
+
<td style="padding:10px;border:1px solid #999;">445 </td>
+
<td style="padding:10px;border:1px solid #999;">345 </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Autoclave </td>
+
<td style="padding:10px;border:1px solid #999;">No </td>
+
<td style="padding:10px;border:1px solid #999;">No </td>
+
<td style="padding:10px;border:1px solid #999;">Yes </td>
+
<td style="padding:10px;border:1px solid #999;">Yes </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">M1 MgSO4 </td>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
+
<td style="padding:10px;border:1px solid #999;">1 </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">M1 CaSO4 </td>
+
<td style="padding:10px;border:1px solid #999;">0,1 </td>
+
<td style="padding:10px;border:1px solid #999;">0,01 </td>
+
<td style="padding:10px;border:1px solid #999;">0,01 </td>
+
<td style="padding:10px;border:1px solid #999;">0,1 </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">20% glucose </td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Tyrosine </td>
+
<td style="padding:10px;border:1px solid #999;">0 </td>
+
<td style="padding:10px;border:1px solid #999;">100 </td>
+
<td style="padding:10px;border:1px solid #999;">0 </td>
+
<td style="padding:10px;border:1px solid #999;">100 </td>
+
</tr>
+
</table>
+
</ol>
+
                               
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<p class="montserrat-text uppercase">Procedure LB medium</p>
+
<p class="montserrat-text uppercase">Materials</p>
</div>
+
</div>
 +
                        <BR><BR>
 +
<ul>
 +
<li style="color:#999999;margin-left:20px;">400 W LEO / S-400-94-CR light</li>
 +
<li style="color:#999999;margin-left:20px;">Five 12-wells plates</li>
 +
<li style="color:#999999;margin-left:20px;"> M9, LB</li>
 +
<li style="color:#999999;margin-left:20px;">Tyrosine, ortho-nitrobenzyl tyrosine, L-arabinose</li>
 +
</ul>
  
<ol type="1">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">Mix the following.</li>
+
<p class="montserrat-text uppercase">Precultures procedure</p>
+
</div>
<table>
+
                        <BR><BR>
<tr>
+
<ol type="1">
<th style="padding:10px;border:1px solid #999;">Volume (1L)</th>
+
<li style="color:#999999;margin-left:20px;">Inoculate 10 mL of liquid LB and incubate at 37°C overnight with appropriate antibiotic</li>
<th style="padding:10px;border:1px solid #999;"></th>
+
<li style="color:#999999;margin-left:20px;">Bl21(DE3), TyrA- (not transformed), TyrA- + RFP</li>
<th style="padding:10px;border:1px solid #999;"></th>
+
</ol>
</tr>  
+
<tr>
+
<th style="padding:10px;border:1px solid #999;"></th>
+
<th style="padding:10px;border:1px solid #999;"> LB</td>
+
        <td style="padding:10px;border:1px solid #999;">LB agar</td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Yeast Extract (g)</td>
+
<td style="padding:10px;border:1px solid #999;">8 </td>
+
        <td style="padding:10px;border:1px solid #999;">8</td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Tryptone (g)</td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
        <td style="padding:10px;border:1px solid #999;">5</td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">NaCl (g)</td>
+
<td style="padding:10px;border:1px solid #999;">5 </td>
+
        <td style="padding:10px;border:1px solid #999;">5</td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Agar (g)</td>
+
<td style="padding:10px;border:1px solid #999;">0 </td>
+
        <td style="padding:10px;border:1px solid #999;">14</td>
+
</tr>
+
</table>
+
  
<li style="color:#999999;margin-left:20px;">Add ddH2O to the desired volume.</li>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">Sterilize by autoclaving.</li>
+
<p class="montserrat-text uppercase">Fluorescence test procedure</p>
</ol>
+
</div>
+
                        <BR><BR>
<div class="col-md-12">
+
<ol type="1">
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<li style="color:#999999;margin-left:20px;">Pellet precultures at 3000 xg for 10 minutes at 4°C</li>
<span>Genome modification of E. coli using recombineering and CRISPR/Cas9</span>
+
<li style="color:#999999;margin-left:20px;">Wash 3x with 5 mL liquid M9 to remove tyrosine present in medium</li>
</div>
+
<li style="color:#999999;margin-left:20px;">When OD600 ~ 0.6, concentrate 10X</li>
+
<li style="color:#999999;margin-left:20px;">Add the following in each well of a 12-wells plate (final volume 3 mL, completed withliquid M9). Make three replicas.</li>
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
</ol>
<p class="montserrat-text uppercase">Introduction</p>
+
                        <BR><BR>
</div>
+
<table>
                                       
+
<tr>
<p>
+
<td style="padding:10px;border:1px solid #999;">Tyr + Ara (BL21)</td>
This protocol is adapted from Jiang et al., 2015. It assumes a version of pTargetTet targeting the correct locus of the E. coli genome has already been created, as well as a donor DNA that include overlap regions and the gene to be inserted. For information on the design and creation of the sgRNA-producing pTarget, see Selection of the sgRNA and modification of pTarget.
+
<td style="padding:10px;border:1px solid #999;">Tyr (BL21)</td>
</p>
+
<td style="padding:10px;border:1px solid #999;">ONB-Tyr + Ara (BL21)</td>
+
<td style="padding:10px;border:1px solid #999;">ONB-Tyr (BL21)</td>
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
</tr>
<p class="montserrat-text uppercase">Materials</p>
+
<tr>
</div>
+
<td style="padding:10px;border:1px solid #999;">Tyr + Ara (TyrA-)</td>
 +
<td style="padding:10px;border:1px solid #999;">Tyr (TyrA-)</td>
 +
<td style="padding:10px;border:1px solid #999;">ONB-Tyr + Ara (TyrA-)</td>
 +
<td style="padding:10px;border:1px solid #999;">ONB-Tyr (TyrA-)</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">Tyr + Ara (TyrA-/RFP)</td>
 +
<td style="padding:10px;border:1px solid #999;">Tyr (TyrA-/RFP)</td>
 +
<td style="padding:10px;border:1px solid #999;">ONB-Tyr + Ara (TyrA-/RFP)</td>
 +
<td style="padding:10px;border:1px solid #999;">ONB-Tyr (TyrA-/RFP)</td>
 +
</tr>
 +
 +
</table>
 +
                        <BR><BR>
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Concentrations</p>
 +
</div>
 +
                        <BR><BR>
 +
<ul>
 +
<li style="color:#999999;margin-left:20px;">Tyrosine: 0.05 mg/mL</li>
 +
<li style="color:#999999;margin-left:20px;">ONB-Tyr: 0.084 mg/mL</li>
 +
<li style="color:#999999;margin-left:20px;">L-arabinose: 0.1% (w/v)</li>
 +
<li style="color:#999999;margin-left:20px;">KAN30, CM34</li>
 +
</ul>
 +
 +
<BR><BR>
  
<ul>
+
                        </div>
<li style="color:#999999;margin-left:20px;">E. coli strain containing the pCas plasmid.</li>
+
<div class="col-md-12">
<li style="color:#999999;margin-left:20px;">pTargetTet targeting the locus to be modified.</li>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">Donor DNA: gene of interest flanked by two 500-bp overlaps, or an ssDNA for deletion.</li>
+
<span>Glucuronidase expression test with ComRS (E. coli)</span>
<li style="color:#999999;margin-left:20px;">LB, Kanamycin, Tetracyclin.</li>
+
</div>
<li style="color:#999999;margin-left:20px;">Arabinose 10%.</li>
+
<BR><BR>
<li style="color:#999999;margin-left:20px;">Chilled sterile ddH2O.</li>
+
                        <li style="color:#999999;margin-left:20px;">Sterile PEP tube.</li>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">IPTG 0,1 M.</li>
+
<p class="montserrat-text uppercase">Materials</p>
</ul>
+
</div>
+
<BR><BR>
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<ul>
<p class="montserrat-text uppercase">Procedure</p>
+
<li style="color:#999999;margin-left:20px;">Na2HPO4</li>
</div>
+
<li style="color:#999999;margin-left:20px;">KCl</li>
+
<li style="color:#999999;margin-left:20px;">MgSO4</li>
<p>
+
<li style="color:#999999;margin-left:20px;">ComS </li>
pCas has a thermo-sensitive origin of replication. All steps until pCas curing should be incubated at 30°C.
+
<li style="color:#999999;margin-left:20px;">Na2CO3</li>
</p>
+
<li style="color:#999999;margin-left:20px;"><i>para</i>-nitrophenyl glucuronide</li>
+
<li style="color:#999999;margin-left:20px;">FastPrep machine</li>
<p><b>Day 1</b></p>
+
</ul>
+
<ul>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<ol type="1">
+
<p class="montserrat-text uppercase">Procedure</p>
<li style="color:#999999;margin-left:20px;">Start a 5 ml pre-culture of TOP10 pCas in LB-Kanamycin. Incubate it overnight at 30°C without shaking.</li>
+
</div>
</ol>
+
<BR><BR>
</ul>
+
<p><i>ComS induction</i></p>
+
                        <BR><BR>
<p><b>Day 2</b></p>
+
<ol type="1">
                   
+
<li style="color:#999999;margin-left:20px;">Dilute preculture to OD600 = 0.1</li>
<p><i>Competent cells</i></p>
+
<li style="color:#999999;margin-left:20px;">Incubate 2h at 37°C</li>
 +
<li style="color:#999999;margin-left:20px;">Induce for 2h at 37°C with 8 µM of ComS</li>
 +
</ol>
 +
<BR><BR>
 +
<p><i>Gus reaction test</i></p>
 +
                        <BR><BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Pellet cells at 13 000 RPM</li>
 +
<li style="color:#999999;margin-left:20px;">Resuspend in Gus tampon (60 mM Na2HPO4, 40 mM NaH2PO4, 10 mM KCl, 1 mM MgSO4, pH 7)</li>
 +
<li style="color:#999999;margin-left:20px;">Lyse with FastPrep for cycles of 30 sec each (see FastPrep protocol)</li>
 +
<li style="color:#999999;margin-left:20px;">Recover supernatant after centrifugation</li>
 +
<li style="color:#999999;margin-left:20px;">Optional: mesure total concentration of protein with Bradford test</li>
 +
<li style="color:#999999;margin-left:20px;">Add 4 µL of substrat (12.5 mM <i>para</i>-nitrophenyl glucuronide) per 100 µL of supernatant and incubate 10 minutes at 37°C</li>
 +
<li style="color:#999999;margin-left:20px;">Stop reaction by addition of a 1 M Na2CO3 solution (150 µL per 100 µL of supernatant)</li>
 +
<li style="color:#999999;margin-left:20px;">Mesure absorbance at 405 nm</li>
 +
</ol>
 +
 +
<p>
 +
Note: the specific activity for Gus is defined in arbitrary units as the concentration of para-nitrophénol (calculated with a standard curve) produced per minute and per mg of total protein.
 +
</p>
  
<ol type="1">
+
<BR><BR>
<li style="color:#999999;margin-left:20px;">Start a culture for transformation by inoculating 40 ml of LB-Kan with 400 µl of pre-culture. Incubate in a 250 ml flask at 30°C until an OD600 between 0,4 and 0,6 is attained. </li>
+
                       
<li style="color:#999999;margin-left:20px;">Add 600 µl of 10% arabinose to the culture to cause the induction of the λ-Red genes. Incubate for 15 minutes at 30°C.</li>
+
                        </div>
<li style="color:#999999;margin-left:20px;">Chill the culture in a water-ice bath. Transfer to a 50 ml centrifuge tube and centrifuge at 4600 x g for 7 minutes in a centrifuge cooled to 4°C.</li>
+
<li style="color:#999999;margin-left:20px;">Add 30 ml of ice-cold water to the pellet. Swirl gently to resuspend the cells. Centrifuge again as described in step 5.</li>
+
<li style="color:#999999;margin-left:20px;">Resuspend the pellet in 1 ml of cold ddH2O. Transfer it using a 1000 µl tip to a pre-chilled sterile EP tube. Centrifuge down at 10.000 x g for 4 seconds in a chilled tabletop centrifuge. (Note, due to speed-up time, doing a quickspin up to 10.000 x g and then letting it slow down is usually good enough) Carefully pipette out the supernatant.</li>
+
<li style="color:#999999;margin-left:20px;">Repeat step 7.</li>
+
<li style="color:#999999;margin-left:20px;">Resuspend cells in 200 µl of chilled ddH2O. Keep on ice until ready to transform.</li>
+
</ol>
+
+
<p><i>Transformation</i></p>
+
  
<ol type="1">
+
<div class="col-md-12">
<li style="color:#999999;margin-left:20px;">Using a 1-mm transformation culture, electroporate 100 ng of pTargetTet plasmid and 400 ng of linear donor DNA in 50 µl of competent cells (Note: when using an ssDNA oligo instead of dsDNA linear donor DNA, transform 100 ng of the plasmid with 100 ng of oligo). Recover the cells at 30°C for 1 hour in SOC medium then plate on LB-Tet-Kan plates. Incubate the plate at 30°C overnight. (Note: it often takes up to 48 hours for colony to show up).</li>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">Screen transformant by colony PCR to identify correct clones.</li>
+
<span>PCR from DNA template or colony</span>
</ol>
+
</div>
+
<BR><BR>
<p><i>Plasmid curing</i></p>
+
  
<ol type="1">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
<li style="color:#999999;margin-left:20px;">To cure the plasmids, resuspend a colony in 2 ml of LB-Kan to which 10 µl of IPTG 0,1 M are added (Final concentration: 0,5 mM) and the culture is grown overnight at 30 °C. In the morning, the colonies are plated on LB plates and incubated at 37°C O/N to cure them of the pCas plasmid.</li>
+
<p class="montserrat-text uppercase">Materials</p>
</ol>
+
</div>
 +
                        <BR><BR>
 +
<ul>
 +
<li style="color:#999999;margin-left:20px;">Phusion HF DNA Polymerase (NEB) or GoTaq Polymerase (Promega)</li>
 +
<li style="color:#999999;margin-left:20px;">5x Phusion HF buffer or GoTaq Flexi Green</li>
 +
<li style="color:#999999;margin-left:20px;">Template DNA</li>
 +
<li style="color:#999999;margin-left:20px;">ddH20</li>
 +
<li style="color:#999999;margin-left:20px;">PCR tubes</li>
 +
<li style="color:#999999;margin-left:20px;">Primers (forward and reverse, 10 mM)</li>
 +
<li style="color:#999999;margin-left:20px;">Thermocycler</li>
 +
<li style="color:#999999;margin-left:20px;">dNTP solution (5 mM each)</li>
 +
<li style="color:#999999;margin-left:20px;">25 mM MgCl2 solution</li>
  
</div>
+
</ul>
<div class="col-md-12">
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<span>RFP fluorescence test</span>
+
</div>
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
</ul>
<p class="montserrat-text uppercase">Materials</p>
+
<BR><BR>
</div>
+
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Procedure</p>
 +
</div>
 +
 +
<p><i>PCR reaction mix</i></p>
 +
                        <BR><BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">In PCR tubes, add the following:</li>
 +
                        <BR><BR>
 +
<table>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
<td style="padding:10px;border:1px solid #999;">A</td>
 +
<td style="padding:10px;border:1px solid #999;">B</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">1</td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Component</b></td>
 +
<td style="padding:10px;border:1px solid #999;"><b><b>Volume (µL)</b></b> </td>
  
<ul>
+
</tr>
<li style="color:#999999;margin-left:20px;">400 W LEO / S-400-94-CR light</li>
+
<tr>
<li style="color:#999999;margin-left:20px;">Five 12-wells plates</li>
+
<td style="padding:10px;border:1px solid #999;">2</td>
<li style="color:#999999;margin-left:20px;"> M9, LB</li>
+
<td style="padding:10px;border:1px solid #999;">Buffer</td>
<li style="color:#999999;margin-left:20px;">Tyrosine, ortho-nitrobenzyl tyrosine, L-arabinose</li>
+
<td style="padding:10px;border:1px solid #999;">10</td>
</ul>
+
</tr>
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<tr>
<p class="montserrat-text uppercase">Precultures procedure</p>
+
<td style="padding:10px;border:1px solid #999;">3</td>
</div>
+
<td style="padding:10px;border:1px solid #999;">Primer FWD</td>
 +
<td style="padding:10px;border:1px solid #999;">2.5</td>
 +
</tr>
  
<ol type="1">
+
<tr>
<li style="color:#999999;margin-left:20px;">Inoculate 10 mL of liquid LB and incubate at 37°C overnight with appropriate antibiotic</li>
+
<td style="padding:10px;border:1px solid #999;">4</td>
<li style="color:#999999;margin-left:20px;">Bl21(DE3), TyrA- (not transformed), TyrA- + RFP</li>
+
<td style="padding:10px;border:1px solid #999;">Primer REV</td>
</ol>
+
<td style="padding:10px;border:1px solid #999;">2.5</td>
 +
</tr>
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<tr>
<p class="montserrat-text uppercase">Fluorescence test procedure</p>
+
<td style="padding:10px;border:1px solid #999;">5</td>
</div>
+
<td style="padding:10px;border:1px solid #999;">MgCl2</td>
 +
<td style="padding:10px;border:1px solid #999;">2 (only Go Taq)</td>
 +
</tr>
  
<ol type="1">
+
<tr>
<li style="color:#999999;margin-left:20px;">Pellet precultures at 3000 xg for 10 minutes at 4°C</li>
+
<td style="padding:10px;border:1px solid #999;">6</td>
<li style="color:#999999;margin-left:20px;">Wash 3x with 5 mL liquid M9 to remove tyrosine present in medium</li>
+
<td style="padding:10px;border:1px solid #999;">dNTPs</td>
<li style="color:#999999;margin-left:20px;">When OD600 ~ 0.6, concentrate 10X</li>
+
<td style="padding:10px;border:1px solid #999;">1</td>
<li style="color:#999999;margin-left:20px;">Add the following in each well of a 12-wells plate (final volume 3 mL, completed withliquid M9). Make three replicas.</li>
+
</tr>
</ol>
+
  
<table>
+
<tr>
<tr>
+
<td style="padding:10px;border:1px solid #999;">7</td>
<td style="padding:10px;border:1px solid #999;">Tyr + Ara (BL21)</td>
+
<td style="padding:10px;border:1px solid #999;">Polymerase</td>
<td style="padding:10px;border:1px solid #999;">Tyr (BL21)</td>
+
<td style="padding:10px;border:1px solid #999;">0.5</td>
<td style="padding:10px;border:1px solid #999;">ONB-Tyr + Ara (BL21)</td>
+
</tr>
<td style="padding:10px;border:1px solid #999;">ONB-Tyr (BL21)</td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Tyr + Ara (TyrA-)</td>
+
<td style="padding:10px;border:1px solid #999;">Tyr (TyrA-)</td>
+
<td style="padding:10px;border:1px solid #999;">ONB-Tyr + Ara (TyrA-)</td>
+
<td style="padding:10px;border:1px solid #999;">ONB-Tyr (TyrA-)</td>
+
</tr>
+
<tr>
+
<td style="padding:10px;border:1px solid #999;">Tyr + Ara (TyrA-/RFP)</td>
+
<td style="padding:10px;border:1px solid #999;">Tyr (TyrA-/RFP)</td>
+
<td style="padding:10px;border:1px solid #999;">ONB-Tyr + Ara (TyrA-/RFP)</td>
+
<td style="padding:10px;border:1px solid #999;">ONB-Tyr (TyrA-/RFP)</td>
+
</tr>
+
+
</table>
+
  
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
+
<tr>
<p class="montserrat-text uppercase">Concentrations</p>
+
<td style="padding:10px;border:1px solid #999;">8</td>
</div>
+
<td style="padding:10px;border:1px solid #999;">DNA Template</td>
 +
<td style="padding:10px;border:1px solid #999;">10-200 ng</td>
 +
</tr>
  
<ul>
+
<tr>
<li style="color:#999999;margin-left:20px;">Tyrosine: 0.05 mg/mL</li>
+
<td style="padding:10px;border:1px solid #999;">9</td>
<li style="color:#999999;margin-left:20px;">ONB-Tyr: 0.084 mg/mL</li>
+
<td style="padding:10px;border:1px solid #999;">ddH20</td>
<li style="color:#999999;margin-left:20px;">L-arabinose: 0.1% (w/v)</li>
+
<td style="padding:10px;border:1px solid #999;">up to 50 µL</td>
<li style="color:#999999;margin-left:20px;">KAN30, CM34</li>
+
</tr>
</ul>
+
 +
</table>
 +
                        <BR><BR>
 +
<li style="color:#999999;margin-left:20px;">Mix with up-and-downs</li>
 +
<li style="color:#999999;margin-left:20px;">Spin gently to collect the liquid at the bottom</li>
 +
</ol>
 +
<BR><BR>
 +
<p><i>Thermocycler</i></p>
 +
                        <BR><BR>
 +
<ol type="1">
  
 +
<li style="color:#999999;margin-left:20px;">In a PCR machine run the following program.</li>
 +
                        <p>
 +
Note: use <a style="color:#0066cc;" href="http://tmcalculator.neb.com/#!/">NEB's Tm Calculator</a> to estimate the annealing temperature.
 +
</p>
 +
                        <BR><BR>
 +
<table>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
<td style="padding:10px;border:1px solid #999;">A</td>
 +
<td style="padding:10px;border:1px solid #999;">B</td>
 +
<td style="padding:10px;border:1px solid #999;">C</td>
 +
<td style="padding:10px;border:1px solid #999;">D</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">1</td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Step</b></td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Temperature</b></td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Time</b></td>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">2</td>
 +
<td style="padding:10px;border:1px solid #999;">Initial Denaturation</td>
 +
<td style="padding:10px;border:1px solid #999;">98°C</td>
 +
<td style="padding:10px;border:1px solid #999;">5 minutes</td>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
</tr>
 +
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">3</td>
 +
<td style="padding:10px;border:1px solid #999;">Denaturation</td>
 +
<td style="padding:10px;border:1px solid #999;">98°C</td>
 +
<td style="padding:10px;border:1px solid #999;">30 seconds</td>
 +
<td style="padding:10px;border:1px solid #999;"rowspan="3">25-35 cycles</td>
 +
</tr>
 +
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">4</td>
 +
<td style="padding:10px;border:1px solid #999;">Annealing</td>
 +
<td style="padding:10px;border:1px solid #999;">See note</td>
 +
<td style="padding:10px;border:1px solid #999;">30 seconds</td>
 +
</tr>
 +
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">5</td>
 +
<td style="padding:10px;border:1px solid #999;"rowspan="2">Elongation</td>
 +
<td style="padding:10px;border:1px solid #999;"rowspan="2">72 °C</td>
 +
<td style="padding:10px;border:1px solid #999;">1 minute/kb (GoTaq)</td>
 +
</tr>
 +
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">6</td>
 +
<td style="padding:10px;border:1px solid #999;">1 minute/kb (GoTaq)</td>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
</tr>
 +
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">7</td>
 +
<td style="padding:10px;border:1px solid #999;">Final Elongation</td>
 +
<td style="padding:10px;border:1px solid #999;">72 °C</td>
 +
<td style="padding:10px;border:1px solid #999;">7 minutes</td>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
</tr>
 +
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">8</td>
 +
<td style="padding:10px;border:1px solid #999;">Soak</td>
 +
<td style="padding:10px;border:1px solid #999;">4°C</td>
 +
<td style="padding:10px;border:1px solid #999;">∞</td>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
</tr>
 +
 +
</table>
 +
                        <BR><BR>
 +
<li style="color:#999999;margin-left:20px;">Load DNA on gel or purify for downstream applications.</li>
 +
</ol>
 +
<BR><BR>
 +
<p><i>Colony PCR</i></p>
 +
                        <BR><BR>
 +
<ol type="1">
 +
 +
<li style="color:#999999;margin-left:20px;">Same protocol, pick a colony to add in the mix instead of DNA.</li>
 +
<li style="color:#999999;margin-left:20px;">Plate out colonies on LB agar for safekeeping</li>
 +
 +
</ol>
 +
 +
<BR><BR>
 +
                       
 +
                        </div>
 +
 +
<div class="col-md-12">
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<span>Gibson Assembly Protocol</span>
 
</div>
 
</div>
 +
 +
                        <BR><BR>
 +
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Introduction</p>
 +
</div>
 +
 +
<p>
 +
This is adapted from the protocol for Gibson Assembly using the Gibson Assembly® Cloning Kit (NEB).
 +
</p>
 +
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Materials</p>
 +
   
 +
                        </div>
 +
                        <BR><BR>
 +
                        <ul>
 +
<li style="color:#999999;margin-left:20px;">Gibson Assembly Mastermix (NEB)</li>
 +
<li style="color:#999999;margin-left:20px;">DNA Polymerases (for generating PCR products)</li>
 +
 +
                                <p>
 +
        Recommended: Q5® High-Fidelity DNA Polymerase, Q5 Hot Start High-Fidelity DNA Polymerase, or Q5 Hot Start High-Fidelity 2X Master Mix
 +
        </p>
 +
 +
<li style="color:#999999;margin-left:20px;">ddH20</li>
 +
<li style="color:#999999;margin-left:20px;">LB plates with appropriate antibiotic</li>
 +
 +
</ul>
 +
<BR><BR>
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Procedure</p>
 +
   
 +
                        </div>
 +
 +
                        <p><i>Set up the following reaction on ice:</i></p>
 +
                        <BR><BR>
 +
                        <ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Reaction volumes:</li>
 +
 +
                                <p>
 +
        NEB recommends a total of 0.02–0.5 pmols of DNA fragments when 1 or 2 fragments are being assembled into a vector and 0.2–1.0 pmoles of DNA fragments when 4–6 fragments are being assembled. Efficiency of assembly decreases as the number or length of fragments increases. To calculate the number of pmols of each fragment for optimal assembly, based on fragment length and weight, we recommend using NEB's online tool, <a style="color:#0066cc;" href="http://nebiocalculator.neb.com/#!/ligation">NEBioCalculator</a>.
 +
        </p>
 +
                        <BR><BR>
 +
                                <table>
 +
                                <tr>
 +
<th style="padding:10px;border:1px solid #999;"></th>
 +
<th style="padding:10px;border:1px solid #999;">A</th>
 +
<th style="padding:10px;border:1px solid #999;">B</th>
 +
<td style="padding:10px;border:1px solid #999;">C</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">1</td>
 +
<td style="padding:10px;border:1px solid #999;"></td>
 +
<td style="padding:10px;border:1px solid #999;"><b>2-3 Fragments Assembly</b> </td>
 +
<td style="padding:10px;border:1px solid #999;"><b>4-6 Fragments Assembly</b> </td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">2</td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Concentration Range of DNA fragments</b></td>
 +
<td style="padding:10px;border:1px solid #999;">0.2 - 0.5 pmols*</td>
 +
<td style="padding:10px;border:1px solid #999;">0.2 - 1.0 pmols*</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">3</td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Total Volume of Fragments (μl)</b></td>
 +
<td style="padding:10px;border:1px solid #999;">Depends on DNA concentration</td>
 +
<td style="padding:10px;border:1px solid #999;">Depends on DNA concentration</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">4</td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Gibson Assembly Master Mix (2x) (μl)</b></td>
 +
<td style="padding:10px;border:1px solid #999;">10</td>
 +
<td style="padding:10px;border:1px solid #999;">10</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">5</td>
 +
<td style="padding:10px;border:1px solid #999;"><b>ddH20 (μl)</b></td>
 +
<td style="padding:10px;border:1px solid #999;">Completing to reach 20</td>
 +
<td style="padding:10px;border:1px solid #999;">Completing to reach 20</td>
 +
</tr>
 +
<tr>
 +
<td style="padding:10px;border:1px solid #999;">6</td>
 +
<td style="padding:10px;border:1px solid #999;"><b>Total Volume (μl) **</b></td>
 +
<td style="padding:10px;border:1px solid #999;">20</td>
 +
<td style="padding:10px;border:1px solid #999;">20</td>
 +
</tr>
 +
</table>
 +
                        <BR><BR>
 +
                                <p>
 +
                                *Optimized cloning efficiency is 50–100 ng of vectors with 2–3 fold of excess inserts. Use 5 times more of inserts if size is less than 200 bps. Total volume of unpurified PCR fragments in Gibson Assembly reaction should not exceed 20%.
 +
                              </p>
 +
 +
                                <p>
 +
                                ** If greater numbers of fragments are assembled, additional Gibson Assembly Master Mix may be required.
 +
                                </p>
 +
                        <BR><BR>
 +
<li style="color:#999999;margin-left:20px;">Incubate samples in a thermocycler at 50°C for 15 minutes when 2 or 3 fragments are being assembled or 60 minutes when 4-6 fragments are being assembled.</li>
 +
 +
                                <p>
 +
                                Note: Extended incubation up to 60 minutes may help to improve assembly efficiency in some cases
 +
                                </p>
 +
 +
<li style="color:#999999;margin-left:20px;">Store samples on ice or at –20°C for subsequent transformation.</li>
 +
 +
 +
 
</div>
 
</div>
</section>
+
</div>
 +
<div class="col-md-12">
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<span>FastPrep cell lysis</span>
 +
</div>
 +
<BR><BR>
 +
 
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Introduction</p>
 +
</div>
 +
 
 +
<p>
 +
This is the protocol for cell lysis using the FastPrep technique. Protocol received from Nadia El Bakkali Taheri.
 +
</p>
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Materials</p>
 +
</div>
 +
                        <BR><BR>
 +
<ul>
 +
<li style="color:#999999;margin-left:20px;">Glass beads (Glasperlen 0,17-0,18 mm, suspended in 10 ml PBS pH 7.5).</li>
 +
 
 +
<li style="color:#999999;margin-left:20px;">PBS pH 7.5</li>
 +
<li style="color:#999999;margin-left:20px;">FastPrep machine</li>
 +
 
 +
</ul>
 +
<div class="section-title" style="text-align:left;float:left;width:100%;margin-bottom:0">
 +
<p class="montserrat-text uppercase">Procedure</p>
 +
</div>
 +
                        <BR><BR>
 +
<ol type="1">
 +
<li style="color:#999999;margin-left:20px;">Centrifuge 2 ml of cell culture at 4000 rpm and 4°C for 10 minutes.</li>
 +
<li style="color:#999999;margin-left:20px;">Discard the supernatant and resuspend the cells in 500 µl of PBS.</li>
 +
<li style="color:#999999;margin-left:20px;">With a cut tip, add 500 µl of the beads in PBS. Keep agitating to keep the beads in suspension.</li>
 +
<li style="color:#999999;margin-left:20px;">Lyse using the FastPrep machine for 60 sec.</li>
 +
<li style="color:#999999;margin-left:20px;">Centrifuge 10 minutes at maximum speed.</li>
 +
<li style="color:#999999;margin-left:20px;">Recover the supernatant that include the lysate. </li>
 +
</ol>
 +
 +
<BR><BR>
 +
 
 +
                        </div>
 +
</section>
  
  

Latest revision as of 14:10, 1 November 2017

iGEM UCLouvain Team iGEM UCLouvain Team

In the Lab

Protocols
DNA Gel electrophoresis


Materials



  • Agarose Powder
  • TAE buffer
  • Gel mould
  • Gel Tank
  • DNA ladder
  • DNA loading dye

Procedure



  1. Prepare 0.8% agarose (w/v) solution in TAE buffer.
  2. Heat until the agarose dissolve.
  3. Pour into the gel mould and set a comb.
  4. Wait for the gel to solidify.
  5. Remove the comb and transfer into the gel tank. Fill with TAE buffer.
  6. Fill the wells with DNA ladder and your samples mixed with corresponding amount of loading dye.
  7. Run for 20-30 minutes at 120 V.


T4 Ligation


Materials



  • PCR tubes
  • T4 DNA Ligase (NEB)
  • T4 DNA Ligase buffer 10x
  • ddH20
  • Insert DNA


Procedure



  1. Calculate insert to vector ratio with NEB calculator. Most common is 3:1.
  2. Add the vector plasmid, the insert DNA, 2 µL of buffer, 1 µL of T4 ligase and enough ddH20 to reach 20 µL.
  3. Gently mix by pipeting up and down.
  4. For cohesive (sticky) ends, incubate at 16°C overnight or room temperature for 10 minutes. For blunt ends or single base overhangs, incubate at 16°C overnight or room temperature for 2 hours.
  5. Heat inactivate at 65°C for 10 minutes.


Selection of the sgRNA and modification of pTarget


Introduction

This protocol cover the identification of a suitable N20 sequence and the modification of the pTarget plasmid. Protocol from S. Worms.

Procedure

1) Selection of the N20 sequence





  1. Use Benchling's CRISPR tool, click on "Design and analyse guide"
  2. Using the default settings (note: Doench et al.'s optimized scoring algorithm doesn't work for circular sequences such as bacterial chromosomes)
  3. Select the target region and press (+)
  4. Select the N20 with the higher On-target score.

2) Modification of pTarget

pTarget is currently available in two version, pTargetF with spectinomycin resistance and pTargetTet_pyrF and its derivatives with a tetracyclin resistance. They should behave identically.


  1. Design a forward oligo to use for a QuickChange-like insertion of the N20 sequence. The sequence of the primer should be the following:
  2. agctagctcagtcctaggtataatactagtNNNNNNNNNNNNNNNNNNNNgttttagagctagaaatagcaagttaaaa

    where the Ns stands for your N20 sequence.

  3. Amplify the pTarget backbone of your choice using the designed forward primer and the appropriate reverse primer (actagtattatacctaggactgagctagctg) using Q5 polymerase and the following conditions:


Temperature (°C) Time
98 30 s
98 15 s 35 x
65 30 s
72 75 s
72 120 s
4 inf.


Media


Materials



  • NaCl
  • Tryptone
  • Yeast Extract
  • Na2HPO4
  • KH2PO4
  • NH4Cl
  • Glucose
  • Tyrosine
  • ddH20
  • CaSO5
  • MgSO4
  • Agar
  • Heat-resistant glass bottles

Procedure M9 medium



  1. Make 10xM9 salts.
  2. Mix the following in 500 mL H20 and sterilize by autoclave.


  3. Mass (g)
    Na2HPO4 64 (Na2HPO4.7H2O)
    KH2PO4 15
    NaCl 2.5
    NH4Cl 5


  4. Make 1M CaCl2 stock solution. The CaCl2 is sterilized separately to avoid formation of CaSO4 precipitate. Dissolve 5.592 g CaC2 to 50 mL H2O and sterilize by filtration or autoclaving.
  5. Make 1M MgSO4 stock solution.
  6. Make 20% glucose solution. Dissolve 10g of glucose in 50 mL H2O and sterilize by filtration. Do not autoclave. Dissolve 6.018 g of MgSO4 in 50 mL H2O and sterilize by filtration or autoclaving.
  7. Make 5x tyrosine solution. Dissolve 0.25 g of tyrosine in 1L H2O and sterilize by filtration.
  8. Sterilize water by autoclaving.
  9. For 500 mL.


  10. M9 M9 + Tyr M9 Agar M9 Agar + Tyr
    10x M9 salts 50 50 50 50
    Agar (g) 0 0 7.5 7.5
    H2O 445 345 445 345
    Autoclave No No Yes Yes
    M1 MgSO4 1 1 1 1
    M1 CaSO4 0,1 0,01 0,01 0,1
    20% glucose 5 5 5 5
    Tyrosine 0 100 0 100


Procedure LB medium



  1. Mix the following.


  2. Volume (1L)
    LB LB agar
    Yeast Extract (g) 8 8
    Tryptone (g) 5 5
    NaCl (g) 5 5
    Agar (g) 0 14


  3. Add ddH2O to the desired volume.
  4. Sterilize by autoclaving.


Genome modification of E. coli using recombineering and CRISPR/Cas9


Introduction

This protocol is adapted from Jiang et al., 2015. It assumes a version of pTargetTet targeting the correct locus of the E. coli genome has already been created, as well as a donor DNA that include overlap regions and the gene to be inserted. For information on the design and creation of the sgRNA-producing pTarget, see Selection of the sgRNA and modification of pTarget.

Materials



  • E. coli strain containing the pCas plasmid.
  • pTargetTet targeting the locus to be modified.
  • Donor DNA: gene of interest flanked by two 500-bp overlaps, or an ssDNA for deletion.
  • LB, Kanamycin, Tetracyclin.
  • Arabinose 10%.
  • Chilled sterile ddH2O.
  • Sterile PEP tube.
  • IPTG 0,1 M.

Procedure

pCas has a thermo-sensitive origin of replication. All steps until pCas curing should be incubated at 30°C.

Day 1

    1. Start a 5 ml pre-culture of TOP10 pCas in LB-Kanamycin. Incubate it overnight at 30°C without shaking.

Day 2

Competent cells

  1. Start a culture for transformation by inoculating 40 ml of LB-Kan with 400 µl of pre-culture. Incubate in a 250 ml flask at 30°C until an OD600 between 0,4 and 0,6 is attained.
  2. Add 600 µl of 10% arabinose to the culture to cause the induction of the λ-Red genes. Incubate for 15 minutes at 30°C.
  3. Chill the culture in a water-ice bath. Transfer to a 50 ml centrifuge tube and centrifuge at 4600 x g for 7 minutes in a centrifuge cooled to 4°C.
  4. Add 30 ml of ice-cold water to the pellet. Swirl gently to resuspend the cells. Centrifuge again as described in step 5.
  5. Resuspend the pellet in 1 ml of cold ddH2O. Transfer it using a 1000 µl tip to a pre-chilled sterile EP tube. Centrifuge down at 10.000 x g for 4 seconds in a chilled tabletop centrifuge. (Note, due to speed-up time, doing a quickspin up to 10.000 x g and then letting it slow down is usually good enough) Carefully pipette out the supernatant.
  6. Repeat step 7.
  7. Resuspend cells in 200 µl of chilled ddH2O. Keep on ice until ready to transform.

Transformation

  1. Using a 1-mm transformation culture, electroporate 100 ng of pTargetTet plasmid and 400 ng of linear donor DNA in 50 µl of competent cells (Note: when using an ssDNA oligo instead of dsDNA linear donor DNA, transform 100 ng of the plasmid with 100 ng of oligo). Recover the cells at 30°C for 1 hour in SOC medium then plate on LB-Tet-Kan plates. Incubate the plate at 30°C overnight. (Note: it often takes up to 48 hours for colony to show up).
  2. Screen transformant by colony PCR to identify correct clones.

Plasmid curing

  1. To cure the plasmids, resuspend a colony in 2 ml of LB-Kan to which 10 µl of IPTG 0,1 M are added (Final concentration: 0,5 mM) and the culture is grown overnight at 30 °C. In the morning, the colonies are plated on LB plates and incubated at 37°C O/N to cure them of the pCas plasmid.


RFP fluorescence test


Materials



  • 400 W LEO / S-400-94-CR light
  • Five 12-wells plates
  • M9, LB
  • Tyrosine, ortho-nitrobenzyl tyrosine, L-arabinose

Precultures procedure



  1. Inoculate 10 mL of liquid LB and incubate at 37°C overnight with appropriate antibiotic
  2. Bl21(DE3), TyrA- (not transformed), TyrA- + RFP

Fluorescence test procedure



  1. Pellet precultures at 3000 xg for 10 minutes at 4°C
  2. Wash 3x with 5 mL liquid M9 to remove tyrosine present in medium
  3. When OD600 ~ 0.6, concentrate 10X
  4. Add the following in each well of a 12-wells plate (final volume 3 mL, completed withliquid M9). Make three replicas.


Tyr + Ara (BL21) Tyr (BL21) ONB-Tyr + Ara (BL21) ONB-Tyr (BL21)
Tyr + Ara (TyrA-) Tyr (TyrA-) ONB-Tyr + Ara (TyrA-) ONB-Tyr (TyrA-)
Tyr + Ara (TyrA-/RFP) Tyr (TyrA-/RFP) ONB-Tyr + Ara (TyrA-/RFP) ONB-Tyr (TyrA-/RFP)


Concentrations



  • Tyrosine: 0.05 mg/mL
  • ONB-Tyr: 0.084 mg/mL
  • L-arabinose: 0.1% (w/v)
  • KAN30, CM34


Glucuronidase expression test with ComRS (E. coli)


Materials



  • Na2HPO4
  • KCl
  • MgSO4
  • ComS
  • Na2CO3
  • para-nitrophenyl glucuronide
  • FastPrep machine

Procedure



ComS induction



  1. Dilute preculture to OD600 = 0.1
  2. Incubate 2h at 37°C
  3. Induce for 2h at 37°C with 8 µM of ComS


Gus reaction test



  1. Pellet cells at 13 000 RPM
  2. Resuspend in Gus tampon (60 mM Na2HPO4, 40 mM NaH2PO4, 10 mM KCl, 1 mM MgSO4, pH 7)
  3. Lyse with FastPrep for cycles of 30 sec each (see FastPrep protocol)
  4. Recover supernatant after centrifugation
  5. Optional: mesure total concentration of protein with Bradford test
  6. Add 4 µL of substrat (12.5 mM para-nitrophenyl glucuronide) per 100 µL of supernatant and incubate 10 minutes at 37°C
  7. Stop reaction by addition of a 1 M Na2CO3 solution (150 µL per 100 µL of supernatant)
  8. Mesure absorbance at 405 nm

Note: the specific activity for Gus is defined in arbitrary units as the concentration of para-nitrophénol (calculated with a standard curve) produced per minute and per mg of total protein.



PCR from DNA template or colony


Materials



  • Phusion HF DNA Polymerase (NEB) or GoTaq Polymerase (Promega)
  • 5x Phusion HF buffer or GoTaq Flexi Green
  • Template DNA
  • ddH20
  • PCR tubes
  • Primers (forward and reverse, 10 mM)
  • Thermocycler
  • dNTP solution (5 mM each)
  • 25 mM MgCl2 solution


Procedure

PCR reaction mix



  1. In PCR tubes, add the following:


  2. A B
    1 Component Volume (µL)
    2 Buffer 10
    3 Primer FWD 2.5
    4 Primer REV 2.5
    5 MgCl2 2 (only Go Taq)
    6 dNTPs 1
    7 Polymerase 0.5
    8 DNA Template 10-200 ng
    9 ddH20 up to 50 µL


  3. Mix with up-and-downs
  4. Spin gently to collect the liquid at the bottom


Thermocycler



  1. In a PCR machine run the following program.
  2. Note: use NEB's Tm Calculator to estimate the annealing temperature.



    A B C D
    1 Step Temperature Time
    2 Initial Denaturation 98°C 5 minutes
    3 Denaturation 98°C 30 seconds 25-35 cycles
    4 Annealing See note 30 seconds
    5 Elongation 72 °C 1 minute/kb (GoTaq)
    6 1 minute/kb (GoTaq)
    7 Final Elongation 72 °C 7 minutes
    8 Soak 4°C


  3. Load DNA on gel or purify for downstream applications.


Colony PCR



  1. Same protocol, pick a colony to add in the mix instead of DNA.
  2. Plate out colonies on LB agar for safekeeping


Gibson Assembly Protocol


Introduction

This is adapted from the protocol for Gibson Assembly using the Gibson Assembly® Cloning Kit (NEB).

Materials



  • Gibson Assembly Mastermix (NEB)
  • DNA Polymerases (for generating PCR products)
  • Recommended: Q5® High-Fidelity DNA Polymerase, Q5 Hot Start High-Fidelity DNA Polymerase, or Q5 Hot Start High-Fidelity 2X Master Mix

  • ddH20
  • LB plates with appropriate antibiotic


Procedure

Set up the following reaction on ice:



  1. Reaction volumes:
  2. NEB recommends a total of 0.02–0.5 pmols of DNA fragments when 1 or 2 fragments are being assembled into a vector and 0.2–1.0 pmoles of DNA fragments when 4–6 fragments are being assembled. Efficiency of assembly decreases as the number or length of fragments increases. To calculate the number of pmols of each fragment for optimal assembly, based on fragment length and weight, we recommend using NEB's online tool, NEBioCalculator.



    A B C
    1 2-3 Fragments Assembly 4-6 Fragments Assembly
    2 Concentration Range of DNA fragments 0.2 - 0.5 pmols* 0.2 - 1.0 pmols*
    3 Total Volume of Fragments (μl) Depends on DNA concentration Depends on DNA concentration
    4 Gibson Assembly Master Mix (2x) (μl) 10 10
    5 ddH20 (μl) Completing to reach 20 Completing to reach 20
    6 Total Volume (μl) ** 20 20


    *Optimized cloning efficiency is 50–100 ng of vectors with 2–3 fold of excess inserts. Use 5 times more of inserts if size is less than 200 bps. Total volume of unpurified PCR fragments in Gibson Assembly reaction should not exceed 20%.

    ** If greater numbers of fragments are assembled, additional Gibson Assembly Master Mix may be required.



  3. Incubate samples in a thermocycler at 50°C for 15 minutes when 2 or 3 fragments are being assembled or 60 minutes when 4-6 fragments are being assembled.
  4. Note: Extended incubation up to 60 minutes may help to improve assembly efficiency in some cases

  5. Store samples on ice or at –20°C for subsequent transformation.
FastPrep cell lysis


Introduction

This is the protocol for cell lysis using the FastPrep technique. Protocol received from Nadia El Bakkali Taheri.

Materials



  • Glass beads (Glasperlen 0,17-0,18 mm, suspended in 10 ml PBS pH 7.5).
  • PBS pH 7.5
  • FastPrep machine

Procedure



  1. Centrifuge 2 ml of cell culture at 4000 rpm and 4°C for 10 minutes.
  2. Discard the supernatant and resuspend the cells in 500 µl of PBS.
  3. With a cut tip, add 500 µl of the beads in PBS. Keep agitating to keep the beads in suspension.
  4. Lyse using the FastPrep machine for 60 sec.
  5. Centrifuge 10 minutes at maximum speed.
  6. Recover the supernatant that include the lysate.


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