Team:Cambridge-JIC/Protocol

From 2014.igem.org

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<p>
<p>
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The plasmid backbone will be split into 3 pieces, as
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It is quicker and less error prone to PCR short fragments (<5kb). All the fragments are designed to overlap with each other by 20-40 bp. This allows the fragments to be joined together into a complete plasmid using the Gibson Assembly technique.  
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It is quicker and less error prone to PCR short fragments (<5kb). The fragments will be
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amplified with the following pairs of single stranded DNA primers
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(length of the fragments in brackets):
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</p>
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<ol>
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<li> nosT_F and P2_B (2137bp) </li>
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<li> P2_F and P1_B (2501bp) </li>
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<li> P1_F and 35s_B (3000bp) </li>
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</ol>
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<p>
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A fourth fragment will be our GOI
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All the fragments are designed to overlap with each other by 20-40 bp for
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the subsequent Gibson assembly reaction.  
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</p>
</p>
<h4>PCR Protocol</h4>
<h4>PCR Protocol</h4>
<ol>
<ol>
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<li> Add primer (2.5µl) and template DNA (1µl) to PCR tubes (label them) </li>
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<li> For each fragment: Add the template DNA (1µl) and primers (2.5µl) to a labelled PCR tube </li>
   
   
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<li> Create the phusion mix in a 1.5 ml eppendorf (note this is slightly
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<li> Create the phusion mix: the recipe for four fragments: in a 1.5 ml eppendorf:  
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more mix that is required (for 4 tubes), since we want to ensure
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that we will have enough):  
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<ul>
<ul>
<li> HPLC H20 162.5 µl </li>
<li> HPLC H20 162.5 µl </li>
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</li>
</li>
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<li> Add 44 µl of the phusion mix into each tube containing DNA (shake
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<li> Shake or centrifuge the PCR tubes to ensure all DNA is at the bottom of the tube.</li>
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or centrifuge them first to ensure that the DNA solution is in the  
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<li> Add 44 µl of the Phusion mix to each PCR tube. </li>
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bottom of the tube). </li>
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<li> Without delay, place the PCR tubes into a PCR machine and set the Phusion protocol running:  
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<li> Place into a PCR machine and set the phusion protocol running  
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(this is directly from the NEB phusion protocol):  
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<ul>
<ul>
<li> 30 sec of 98°C (initial denaturation) </li>
<li> 30 sec of 98°C (initial denaturation) </li>
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<li> 10 sec of 98°C (denaturation) </li>
<li> 10 sec of 98°C (denaturation) </li>
<li> 20 sec of 58°C (annealing) </li>
<li> 20 sec of 58°C (annealing) </li>
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<li> 2:00 mins of 72°C (extension) </li>
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<li> 2:00 mins of 72°C (extension) - note the length of this step should be 30 seconds for each kb of the longest fragment </li>
</ul>
</ul>
</li>
</li>
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</ol>
</ol>
   
   
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This reaction will take roughly 2 hours, and can be kept on hold at 4°C  
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The PCR process takes ~2 hours, and after completion the PCR tubes can be held at 4°C  
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without problems for many hours after completion. Next, we will
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without problems for many hours.  
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proceed to the gel electrophoresis step.
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<h3 id="Gel">Gel Electrophoresis</h3>
<h3 id="Gel">Gel Electrophoresis</h3>

Revision as of 14:54, 31 July 2014