Team:Cambridge-JIC/Protocol

From 2014.igem.org

(Difference between revisions)
Line 82: Line 82:
<h3 id="Gel">Gel Electrophoresis</h3>
<h3 id="Gel">Gel Electrophoresis</h3>
-
The PCR tubes will now contain our fragments, as well as template and  
+
<p>The PCR tubes now contain our fragments, as well as template and  
-
primer DNA that will interfere with the subsequent Gibson assembly
+
primer DNA which must be removed. The fragments are extracted by running the PCR tube mixture through an agarose gel.
-
reaction and transformation. Therefore we will need to extract and purify
+
A voltage applied to the gel causes the negatively  
-
the right DNA fragments. To do this, we will run the mixture through an  
+
charged DNA to migrate. Larger fragments migrate more slowly, and thus  
-
agarose gel by applying a voltage, which will cause the negatively  
+
DNA molecules will be separated according to size. The size of the fragments can be measured by comparison with a calibration ladder, which produces a characteristic pattern of bands corresponding to known lengths. </p>
-
charged DNA to migrate. Larger fragments will migrate slower, and thus  
+
<p>First, we should make the gel,(100 ml 1% (w/v) agarose TAE gel):
-
DNA molecules will be separated by size. It will also allow us to confirm
+
-
that we have the correctly sized DNA.  
+
-
Firstly, we should make a 100 ml 1% (w/v) agarose TAE gel:  
+
<ol>
<ol>
<li> Weigh out 1g Ultrapure agarose, and add it to a glass flask </li>
<li> Weigh out 1g Ultrapure agarose, and add it to a glass flask </li>
<li> Add 100 ml 1xTAE </li>
<li> Add 100 ml 1xTAE </li>
<li> Microwave for 2:30 mins, swirling the flask after 1:30 mins </li>
<li> Microwave for 2:30 mins, swirling the flask after 1:30 mins </li>
-
<li> Place in 55°C hybridizer to cool for 20-30 mins (when the gel is too  
+
<li> Place the glass flask in a 55°C hybridizer to cool for 20-30 mins (the gel must not be poured when it is too hot) </li>
-
hot, the mould expands and the molten gel leaks out) </li>
+
<li> Pour the gel into two 50 ml falcon tubes </li>
-
<li> Pour into two 50 ml falcon tubes </li>
+
<li> In a dedicated gel area, add 5 µl of Sybr Safe DNA dye to each falcon </li>
-
<li> Add 5 µl of Sybr Safe DNA dye to each falcon (do this in a dedicated
+
<li> Pour the gel from both falcon tubes into the gel mould and insert an 8 tooth comb</li>
-
gel area – DNA dyes are generally not good for health) </li>
+
<li> Leave the gel to set for 30 mins </li>
-
<li> Pour out both falcons into the gel mould with 2 of the 8 toothed
+
<li> Take the PCR tubes which contain the DNA fragments. Add 12.5 µl of 5x loading dye to each PCR  
-
combs and leave to set for 30 mins </li>
+
-
<li> Once the PCR is finished, add 12.5 µl of 5x loading dye to each PCR  
+
tube </li>
tube </li>
-
<li> Then, remove the combs and walls from the set gel, and place into  
+
<li> Remove the comb and walls from the set gel, and place into a gel tank. Make sure there is enough TAE to cover the gel </li>
-
the gel tank containing enough TAE to cover the gel </li>
+
<li> Load the gel lanes:
-
<li> Load the gel lanes – lane 1 of each level with Hyperladder 1kb, and
+
<ul>
-
the remaining lanes with the results of your PCR </li>
+
<li> Put Hyperladder 1kb in lane 1</li>
 +
<li> Fill the remaining lanes with the contents of the PCR tubes. One lane per tube.</li>
 +
</ul>
<li> Run at 100V for 40 mins </li>
<li> Run at 100V for 40 mins </li>
-
</ol>
+
</ol></p>
<h3 id="purification">DNA purification </h3>
<h3 id="purification">DNA purification </h3>

Revision as of 15:17, 31 July 2014