Team:Carnegie Mellon/Met-Protocols
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- | <tr> <td width = "25"> 1. </td><td width = "200"For 7x7 cm, 0.5cm thick gel, with 1.75% agarose Concentration. </td></tr> | + | <tr> <td width = "25"> 1. </td><td width = "200">For 7x7 cm, 0.5cm thick gel, with 1.75% agarose Concentration. </td></tr> |
<tr><td>2. </td><td> Add 0.35 grams of agarose to 20ml of 1x buffer (TBE) | <tr><td>2. </td><td> Add 0.35 grams of agarose to 20ml of 1x buffer (TBE) | ||
Note: Place mark on container to keep track of liquid level using marker, so water can be added to bring the liquid back to original level </td></tr> | Note: Place mark on container to keep track of liquid level using marker, so water can be added to bring the liquid back to original level </td></tr> |
Revision as of 02:14, 23 September 2012
Protocols
Overview
Kit Protocols
1. | Z-Competent E. Coli Transformation Kit for making competent cells for easy transformation. Modified to incubate cells on ice for 1 hour during transformation |
2. | Phusion High Fidelity PCR Kit for amplifying our inserts and cassettes. |
3. | Qiagen Mini-prep Kit for isolating our plasmids from the cells, to be transformed into expression strains. |
Dosage Curve
1. | First culture a fresh batch of cells using 1:100 of overnight culture of promoter construct. Culture for around 2 hours or until the solution is lightly turbid. |
2. | Induce cells by adding 1ul of 1mM IPTG. |
3. | Wash 1mL induced cells once with PBS and resuspend in 1mL M9 media. |
4. | Add 1µL of 50nM Mg2+ to the tubes (from MgCl2 from PCR kit) |
5. | Aliquot (100ul/200ul) of cells into desired wells of a 96-well plate. |
6. | Add various doses of DFHBI to the wells, followed by adding the desired doses of MG |
7. | Plate read with plate reader (Tecan Safire II). First find cell density using OD600. Then use Excitation/Emission of 469/501 for Spinach and 635/660 for Malachite-green. |
Cloning Protocol
1. | Start digestion of vector and insert DNA using desired restriction enzyme manufacturer protocol. [NEB] |
2. | After 2 hours, add Phosphatase [CIP] to insert to prevent self-ligation |
3. | Purify and clean DNA using kit. [Zymo Research] |
4. | Measure vector/insert concentration. [Nanodrop] |
5. | Divide the concentration by the length of the sequence and calculate ligation ratios of 1 vector to 3 insert. Mix the ratios according to the calculations, including T4 buffer and ligase. |
6. | Leave ligation products at room temperature for 1 hour. |
7. | Transform ligation products into competent cells using appropriate protocol. Incubate on ice for 1 hour if using Zymo competent cells |
8. | Plate cells and incubate at 37 degrees overnight. Check for colonies the next day |
Gel Protocol
1. | For 7x7 cm, 0.5cm thick gel, with 1.75% agarose Concentration. |
2. | Add 0.35 grams of agarose to 20ml of 1x buffer (TBE) Note: Place mark on container to keep track of liquid level using marker, so water can be added to bring the liquid back to original level |
3. | Place gel solution in microwave. Use low/medium, set timer for 5 minutes. Stop the oven every 30 seconds and swirl gently to suspend undissolved agarose. |
4. | Once dissolved, set aside to cool (~60 degrees). Once solution is warm to touch, add 0.5ug/ml ethidium bromide. [1ul of 10mg/ml] |
5. | Pour into casting tray, remember to add in comb at the cathode side (black). Gel will solidify in ~10 mins |
6. | Remove comb for solidified gel, remove casting gates and submerge gel beneath 2 to 6mm of 1x buffer. |
7. | Mix loading dye with PCR/digested products, load mixture into wells, together with 10ul of ladder |
8. | Run gel at 75V for ~1 hour. Adjust voltage accordingly if require faster or more distinct gels. |