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<p>This protocol spans over 3 days of execution time, starting from a -80°C mother stock. Throughout the protocol, it is recommended to work under aseptic conditions in order to prevent contamination risks. <br> | <p>This protocol spans over 3 days of execution time, starting from a -80°C mother stock. Throughout the protocol, it is recommended to work under aseptic conditions in order to prevent contamination risks. <br> | ||
− | < | + | <h4 class="adpbl">Day 1</h3> |
<ol> | <ol> | ||
<li>Keep the -80°C strain stock of interest on ice. </li> | <li>Keep the -80°C strain stock of interest on ice. </li> | ||
<li>Streak the strain on solid selective medium and incubate overnight at 37 °C while shaking. </li> | <li>Streak the strain on solid selective medium and incubate overnight at 37 °C while shaking. </li> | ||
</ol> | </ol> | ||
− | < | + | <h4 class="adpbl">Day 2 </h3> |
<ol> | <ol> | ||
<li>Prepare a 10mL <a href="#" target="_blank" class="adpbl">liquid starter culture </a> with one of the colonies that grew on the selective plate. Let the culture grow overnight at 37°C, shaking at 180rpm. </li> | <li>Prepare a 10mL <a href="#" target="_blank" class="adpbl">liquid starter culture </a> with one of the colonies that grew on the selective plate. Let the culture grow overnight at 37°C, shaking at 180rpm. </li> | ||
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NOTE: Volumes depend on the total culture volume to be prepared in step 5. For example, if 1 L is used in step 7, 300 mL of CaCl<sub>2</sub> 100 mM and 10 mL of CaCl<sub>2</sub> 100 mM + 15 % glycerol will be used.</li> | NOTE: Volumes depend on the total culture volume to be prepared in step 5. For example, if 1 L is used in step 7, 300 mL of CaCl<sub>2</sub> 100 mM and 10 mL of CaCl<sub>2</sub> 100 mM + 15 % glycerol will be used.</li> | ||
</ol> | </ol> | ||
− | < | + | <h4 class="adpbl">Day 3</h3> |
<ol> | <ol> | ||
<li>Inoculate 1:100 of overnight culture in the desired volume of LB with antibiotic (eg. 10 mL of culture in 1 L of LB). </li> | <li>Inoculate 1:100 of overnight culture in the desired volume of LB with antibiotic (eg. 10 mL of culture in 1 L of LB). </li> |
Revision as of 12:34, 21 September 2018
Text to write to introduce the protocols
This protocol is based on the Pierce BCA protein assay kit by Thermo Scientific protocol.
- Prepare a set of protein standards using one 2mg/mL Albumin Standard (BSA) ampule according to the table below:
NOTE: Use the same diluent as the samples. The expected working range = 20-2000µg/mL.
- Determine the amount of total volume of working reagent (WR) required by using the the following formula:
Total volume WR = (# standards + # unknowns) × (# replicates) × (200 µl) - Prepare the BCA working reagent by mixing 50 parts of BCA Reagent A with 1 part of BCA Reagent B (50:1, Reagent A:B). NOTE: The WR is stable for several days when stored in a closed container at room temperature (RT).
- Pipette 25µL of each standard or unknown sample replicate into a microplate well.
- Add 200µL of the WR to each well and mix plate thoroughly.
- Cover plate and incubate at 37°C for 30 minutes.
- Cool plate to room temperature.
- Measure the absorbance at or near 562nm on a plate reader.
Vial | Volume of MilliQ (µL) | Source of BSA | Volume of source BSA (µL) | Final BSA concentration (µg/µL) |
---|---|---|---|---|
A | 0 | Stock | 300 | 2000 |
B | 125 | Stock | 375 | 1500 |
C | 325 | Stock | 325 | 1000 |
D | 175 | Vial B | 175 | 750 |
E | 325 | Vial C | 325 | 500 |
F | 325 | Vial E | 325 | 250 |
G | 325 | Vial F/td> | 325 | 125 |
H | 400 | Vial G | 100 | 25 |
I | 400 | n/a/td> | 0 | 0 |
This protocol spans over 3 days of execution time, starting from a -80°C mother stock. Throughout the protocol, it is recommended to work under aseptic conditions in order to prevent contamination risks.
Day 1
- Keep the -80°C strain stock of interest on ice.
- Streak the strain on solid selective medium and incubate overnight at 37 °C while shaking.
Day 2
- Prepare a 10mL liquid starter culture with one of the colonies that grew on the selective plate. Let the culture grow overnight at 37°C, shaking at 180rpm.
- Sterilise solutions of CaCl2 100 mM and of CaCl2 100 mM + 15 % Glycerol in advance.
NOTE: Volumes depend on the total culture volume to be prepared in step 5. For example, if 1 L is used in step 7, 300 mL of CaCl2 100 mM and 10 mL of CaCl2 100 mM + 15 % glycerol will be used.
Day 3
- Inoculate 1:100 of overnight culture in the desired volume of LB with antibiotic (eg. 10 mL of culture in 1 L of LB).
- Incubate in a shaker at 37 °C, 180 rpm to OD600nm ~0.4-0.6 (measure OD600nm every 30 minutes).
- Harvests the cells by centrifugation at 4000 x g for 5 minutes in centrifuge tubes, decant supernatant.
- Resuspend cells by gently pipetting 1/5 (of the volume of LB from step 5) of ice-cold 100 mM CaCl2 and incubate on ice for 20 minutes.
- Pellet the cells by centrifugation at 4000 x g for 5 minutes in centrifuge tubes, decant supernatant.
- Resuspend cells by gently pipetting 1/10 (of the volume of LB from step 5) of ice-cold 100 mM CaCl2 and incubate on ice for 60 minutes.
- Pellet the cells by centrifugation at 4000 x g for 5 minutes in centrifuge tubes, decant supernatant.
- Resuspend cells by gently pipetting 1/100 (of the volume of LB from step 5) of ice-cold 100 mM CaCl2 + 15% glycerol and keep on ice.
- Chemical competent cells can either immediately be used for heat shock transformation, or stored in aliquots of 50 uL in microcentrifuge tubes at -80 °C.
- Prepare a 10mL liquid starter culture with one of the colonies that grew on the selective plate. Let the culture grow overnight at 37°C, shaking at 180rpm.
- Sterilise solutions of CaCl2 100 mM and of CaCl2 100 mM + 15 % Glycerol in advance.
NOTE: Volumes depend on the total culture volume to be prepared in step 5. For example, if 1 L is used in step 7, 300 mL of CaCl2 100 mM and 10 mL of CaCl2 100 mM + 15 % glycerol will be used.
Day 3
- Inoculate 1:100 of overnight culture in the desired volume of LB with antibiotic (eg. 10 mL of culture in 1 L of LB).
- Incubate in a shaker at 37 °C, 180 rpm to OD600nm ~0.4-0.6 (measure OD600nm every 30 minutes).
- Harvests the cells by centrifugation at 4000 x g for 5 minutes in centrifuge tubes, decant supernatant.
- Resuspend cells by gently pipetting 1/5 (of the volume of LB from step 5) of ice-cold 100 mM CaCl2 and incubate on ice for 20 minutes.
- Pellet the cells by centrifugation at 4000 x g for 5 minutes in centrifuge tubes, decant supernatant.
- Resuspend cells by gently pipetting 1/10 (of the volume of LB from step 5) of ice-cold 100 mM CaCl2 and incubate on ice for 60 minutes.
- Pellet the cells by centrifugation at 4000 x g for 5 minutes in centrifuge tubes, decant supernatant.
- Resuspend cells by gently pipetting 1/100 (of the volume of LB from step 5) of ice-cold 100 mM CaCl2 + 15% glycerol and keep on ice.
- Chemical competent cells can either immediately be used for heat shock transformation, or stored in aliquots of 50 uL in microcentrifuge tubes at -80 °C.
- Under sterile conditions, pick a colony and dilute it in 10 µL of milli-Q water.
NOTE: After you pick the colony, it cannot be used again. It is therefore recommended to make a 'back-up'-plate where you grow the colonies again. This plate should be incubated overnight at 37 °C. - Incubate at 90 °C for 10 min.
NOTE: Instead of separate 'cooking' of the cells before the PCR, this step can be incorporated in the PCR program. The initial denaturation step at 98 °C should then be prolonged to 5 minutes (300 seconds). - Prepare the GoTaq master mix for all the samples in a single 1.5 mL tube.
NOTE: mind pipetting errors so prepare at little bit more master mix!
For one sample: - Pipette 45 µL of mix into each PCR tube (one tube per colony).
- Centrifuge the colony mixture for 5 minutes at 16,000 x g.
- Add 5 µL of supernatant of colony mixture to each PCR tube.
- Put the tubes in the PCR machine and apply the following program (it needs to be adjusted for primers annealing temperature and extension time):
- The PCR product(s) can be checked on gel. In order to do so, cast a gel and prepare the samples according to the DNA electrophoresis protocol.
Component | Volume (µL) |
---|---|
GoTaq 5x buffer | 10 |
10 mM dNTPs | 1 |
Primer forward (10µM) | 1 |
Primer reverse (10µM) | 1 |
Sterile milli-Q | 31.8 |
Gotaq polymerase (5u/µL) | 0.2 |
Total | 45 |
Step | Time (s) | Temperature (°C) |
---|---|---|
Initial denaturation | 150 | 98 |
Denaturation | 60 | 94 |
Annealing | 60 | 60 (depending on primers) |
Extension | 60 sec per kb DNA | 72 |
Final extension | 600 | 72 |
Hold | ∞ | 4 |
- Decide on which enzyme(s) to cut with. Check online what buffer the enzyme(s) work(s) in (NEB). For most of the enzymes, the SmartCut buffer 10X can be used.
- Prepare a sample a sample as follows:
- Incubate for 4 hours at 37 °C.
- Inactivate the restriction enzyme(s) by heating to 65 °C for 10 minutes.
DNA Purification (PCR) protocol for subsequent cloning strategies.
Component | Volume (µL) |
---|---|
10x CutSmart buffer (NEB) | 2 |
Fragment (~1-2 μg) | X (depending on the concentration) |
Restriction Enzyme 1 | 1 |
Restriction Enzyme 2 (optional) | 1 |
MilliQ | 20 - (3 + X) add up to 20 µL |
NOTE: All work is performed within a sterile field created by a bunsen burner flame.
- For one cryostock, take a 1.5mL sample from an overnight liquid cultures .
- Centrifuge the 2mL tubes at 2000rpm for 10 min.
- Decant the supernatant without disturbing the pellet.
- Add fresh sterile LB medium to the pellet, 1/3 volume of the starting volume of the culture.
- Completely resuspended the pellet by vortexing the tube.
- Add sterile 80% glycerol solution, the same volume as fresh LB in step 4.
- Mix by vortexing.
- Make a 1mL aliquot in cryotubes and label it with the cell type, plasmid type, protein type, operator and date.
- Store the vials at -80ºC and update the inventory.