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| | <section class="hull"> | | <section class="hull"> |
| − | <label class="hull-title" for="cb6">Running Agarose Gel</label> | + | <label class="hull-title" for="cb6">Overnights protocol</label> |
| | <label class="hull-close" for="acc-close"></label> | | <label class="hull-close" for="acc-close"></label> |
| − | <div class="hull-content">After the cells have been miniprepped and the plasmid put through a restriction digest, the agarose gel can be run. | + | <div class="hull-content">After a transformation has been run and plates have been streaked and patched, overnight cultures will need to be made: |
| | <br> | | <br> |
| − | <ul><li>Make up some agarose. This is done by taking 0.5g of agarose powder and putting it in a
| + | |
| − | 250ml sterile conical flask, with 50ml of TAE buffer, then microwaving it in small pulses (20
| + | ● |
| − | seconds then swirling it around) until it is dissolved. Don’t overheat it or it will evaporate too
| + | ● |
| − | much. Make up the evaporated volume to 50ml with distilled water.</li>
| + | ● |
| − | <li>Add 1 vial of cybersafe (ask technical services for a tube of it and add all of it)</li> | + | ● |
| − | <li>Line the white sides of the tank with the agarose solution, to seal it and prevent leakage. Use | + | <ul><li>Add 10mL of LB broth (not agar) into as many autoclaved conical flasks as |
| − | a p1000 pipette set to 1ml. Let it dry (about 5 mins max)</li>
| + | needed</li> |
| − | <li>Then pour all the agarose/sybrsafe solution into the tank and put in the comb. Let it set and
| + | <li>Add 10uL of Chloramphenicol into each conical flask as well</li> |
| − | solidify (maximum 30 mins)</li>
| + | <li>Using a pipette tip, scrape up some of the cell colonies on the agar plates |
| − | <li>When the gel has set, remove the comb from the tank (gently!) and then cover the whole | + | prepared beforehand and drop it into the conical flask</li> |
| − | tank with TAE buffer, so there’s at least half a centimetre of TAE covering the gel.</li>
| + | <li>Cover up the flask using aluminum foil</li> |
| − | <li>Now, the samples need to be loaded. Load some DNA markers (ask technical services for a
| + | <li>Incubate the cultures at 37oC and 180 rpm</li> |
| − | tube of this and load the whole tube) into well 1( left hand side) and then choose what you
| + | </ul></div> |
| − | load into wells 2, 3, and 4 etc. (make sure you note what’s in each lane!)</li>
| + | |
| − | <li>Load all of your digests into the wells 2,3, and 4.</li>
| + | |
| − | <li>Plug into a power supply and put the cover on. Run for 40 mins to an hour at 80v. The amps | + | |
| − | don’t matter.</li>
| + | |
| − | <li>Once the visible markers have reached the half way point of the tank, turn off the power | + | |
| − | supply and drain the TAE buffer form the tank. Remove the gel with a spatula and place in a
| + | |
| − | UV imaging box. Take an image of the gel under UV light, save it onto a USB stick.</li></ul></div>
| + | |
| | </section> | | </section> |
| | + | <input type="radio" name="droptext" id="acc-close" /> |
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Experiments & Protocols
