Team:Trieste/protocols
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Protocols
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Preparation of Competent Cells
Work as sterile as possible at 4°C.- 1. Take 100mL aliquot of frozen cells (use DH5-α cells in this case) from the -80°C and inoculated.
- 2. Grow the cells in the shaker at 37°C until they reach an O.D.600nm=0,6.
- 3. Transfer them into sterile Falcon (50mL).
- 4. Centrifuge it at 4500 rpm for 10 minutes at 4°C.
- 5. Resuspend the bacteria pellet on ice in cold CaCl2(0,1M) .
- 6. Keep this suspension on ice for overnight.
- 7. Centrifuge it at 4500 rpm for 10 minutes at 4°C.
- 8. Resuspend the pellet in 8mL of RF2 (MOPS 1mM, RbCl 10mM, CaCl2 75mM, glycerol 15%w/v).
- 9. Dispense in aliquots and freeze cells at -80°C.
Transformation - Heat Shock
Use DH5-α cells in most cases.- 1. Take competent E.coli cells from –80°C freezer and place on ice. Allow cells to thaw.
- 2. Mix cells by flicking the tube gently, then remove 100μl per transformation into a sterile pre-chilled (on ice) 1,5 tube.
- 3. Add 7μl of DNA per 100μl cells. Quickly flick the tube several times to ensure the even distribution of DNA.
- 4. Immediately place tubes on ice for 30 minutes.
- 5. Heat shock the cells for 90 seconds in a water bath at exactly 42 °C. Do no shake.
- 6. Immediately place tubes on ice for 2 minutes.
- 7. Add 1mL of room temperature LB media (with no antibiotic added) and incubate for 1 hour in shaker at 37°C.Can incubate tubes for 30 minutes with appropriate antibiotic added – usually Ampicillin or Kanamycin.
- 8. Spread about 100μL of the resulting culture on LB plates - Grow overnight (O/N). The cells may be pelleted by centrifugation at 500 x g for 5 minutes, then the cells can be resuspended and plated.
- 9. Pick colonies about 12-16 hours later.
Clean colony PCR
- 1. Pick the bacterial colonies and release them in 50μL distillate/autoclaved water.
- 2. Boil the sample at 95°C for 5 minutes.
- 3. Prepare 28μL of mix-PCR solution for each sample (6μL Buffer Taq 5x, 1,8μL MgCl2 25mM, 0,6μL dNTPs 5mM, 0,15μL per primers, 0,15μL Taq polymerase, 19,15μL H2O), blend it and then spin it.
- 4. Take 2mL of the sample and release into mix-PCR solution and blend it.
- 5. Impost the PCR machine for 30μL volume and for 30 cycles, 5 minutes at 93°C, 30 seconds at 95°C, 30 seconds at 53°C, 1 minute at 72°C, indefinitely at 4°C.
- 6. Insert the samples and start the PCR machine.
- 7. At the end of the PCR the samples are ready for electrophoresis.
E.L.I.S.A.
- 1. Coat 96-well ELISA plate with 100μL per well of antibody I anti6HIS used 1μg/mL for selection. Coating is in 100mM sodium hydrogen carbonate, pH 9.6. Leave O/N at 25°C.
- 2. Rinse wells 5x with BSA-PBS 0,1%.
- 3. Add the bacteria transformed that express the 6HIS tag in different concentration: 106, 105, 104 in different wells. Then in different wells too add bacteria non-transformed in different concentration: 106, 105, 104.
- 4. Rinse wells 5x with LB media.
- 5. Add 200μL of LB media and possibly antibiotics. Incubate O/N at 37°C.
- 6. Plate and incubate at 37°C until formation of bacterial colonies.
Western blot
Preparation- 1. Inoculate bacteria in 20mL of LB media with antibiotics if required O/N.
- 2. Transfer 2mL of the inoculum in flask and add 18mL of LB media with antibiotics if required.
- 3. Grow the bacteria until the inoculum reach at O.D. 600nm the value 0,4-0,6.
- 4. 2mL must be recovered to form the sample “non-induced”.
- 5. Induce the remaining 17mL of inoculum with 17μL of IPTG.
- 6. Wait for 4 hours (or for the time deemed appropriate).
- 7. Take 2ml the induced and centrifuge it for 10 minutes at 5000 rcf.
- 8. Discard the supernatant and add to the pellet 200μL of Loading Buffer SDS.
- 9. Sonicate very strong.
- 10. Heat shock at 95°C for 5 minutes.
- SDS-PAGE
- 1. Assemblate the Western blot scaffold.
- 2. Seal the bottom of the Western blot scaffold using agarose-water solution.
- 3. Add 10mL the running gel.
- 4. Add immediately, before the gel get solid, 1mL of isopropanol to level off the gel surface.
- 5. When the running gel is solid, add stacking gel until edge.
- 6. Insert the comb and wait the solidification of the gel.
- 7. Fill the Western blot scaffold with running buffer.
- 8. Remove gently the comb and wash the wells with Loading buffer SDS.
- 9. Loading the samples into wells.
- 10. Run Western blot at 200V, 30mA for 2 hours.
Transfer
- 1. At the end of the SDS-PAGE, disassemble the Western blot scaffold and recover the gel.
- 2. Assemblate the sandwich with in the middle the PVDF membrane surrounded two pieces of filter paper.
- 3. Put the sandwich into transfer box, add transfer buffer.
- 4. Leave transfer proteins at 200V, 50mA O/N.
- 1. Dip the PVDF membrane into PBS-milk 5%, 1 hours in shaker, to prevent non-specific binding of the antibodies, which leads to high backgrounds.
- 2. Discard the PBS-milk 5% solution.
- 3. Add Antibody I with PBS-milk 5% solution and incubate for 1 hours in shaker.
- 4. Discard antibody with PBS-milk 5% solution.
- 5. Wash three times with PBS-tween 0,1% solution shake manually.
- 6. Wash three times with PBS-tween 0,1% solution in shaker for 3 minutes each one.
- 7. Add antibody II with PBS-milk 5% solution and incubate for 1 hours in shaker.
- 8. Repeat step 5 and step 6.
- 1. Dip the membrane in PBS.
- 2. Put 1mL first ECL solution + 1mL second ECL solution on film.
- 3. Wet the membrane in solution with the solution on film for some seconds.
- 4. Fix the wet membrane in obscure box.
- 5. Go to obscure room and lean the photograph plate on the membrane for the time deemed appropriate for to have the right exposure.
- 6. Dip the photograph plate into developer solution for 1 minute.
- 7. Wash the photograph plate with water.
- 8. Dip the photograph plate into fixer solution for 2 minutes.
- 9. Dry the photograph plate in stove at 65°C.
Blocking
ECL (enhanced chemiluminescence)
Stripping
1. Wash the photograph plate with PBS-Tween 0,1% 3 times shake manually.- 2. Wash the photograph plate with distillate water.
- 3. Add Stripping solution + distillate water in a ratio of 1 to 10 and incubate 30 minutes in shaker at 25°C.
- 4. Repeat the point 1.
- 5. Blocking with PBS-milk 5% for 30 minutes in shaker at 25°C.
- 6. Repeat the point 1.
- 7. Start the protocol for ECL (enhanced chemiluminescence).
- 8. Should be a photograph plate without any signal.
- 1. Inoculate bacteria in 20mL of LB media and possibly antibiotics O/N.
- 2. Transfer 2mL of the inoculum in flask and add 18mL of LB media and possibly antibiotics.
- 3. Grow the bacteria until the inoculum reach at O.D. 600=0,4-0,6.
- 4. 2mL must be recovered to form the sample “non-induced”.
- 5. Induce the remaining 17mL of inoculum with 17μL of IPTG mM.
- 6. Wait for 4 hours (or for the time deemed appropriate).
- 7. Take 2mL of the induced and centrifuge it for 10 minutes at 5000 rpm.
- 8. Discard the supernatant and resuspend pellet in 1/40 volume of PPB buffer (200mg/mL sucrose, 1mM EDTA, 30mM Tris-HCl pH 8.0). Keep in ice for 20 minutes.
- 9. Spin down cells in centrifuge at 5000 rpm for 15 minutes and collect supernatant into smaller high speed centrifuge tubes.
- 10. Resuspend pellet in 1/40 volume of 5mM MgSO4 buffer. Incubate in ice for 20 minutes.
- 11. Transfer samples to small high speed centrifuge tubes.
- 12. Spin both peri-prep supernatant and Osmotic shock preparation at 15000 rpm for 15 minutes.
- 13. Collect the supernatants, the sample is ready for E.L.I.S.A.
- 1. Recover 1mL of the sample supernatant.
- 2. Add 250mL of TCA 50% (trichloroacetic acid).
- 3. Incubate in ice for 60 minutes.
- 4. Centrifuge it for 10 minutes at 3750 rfc at 4°C.
- 5. Discard the supernatant.
- 6. Add 1mL of could acetone to eliminate the TCA.
- 7. Speed vaac for 10 minutes (sniff the sample to control absence of acetone).
- 8. Resuspend the sample in sample buffer SDS 1X (the color change to yellow).
- 9. Add 1mL of Tris (2-Amino-2-hydroxymethyl-propane-1,3-diol) to basific the solution (the color should change to blue, if it no happen so add other Tris).
- 1. Inoculate bacteria in 20mL of LB media and possibly antibiotics O/N.
- 2. Transfer 2mL of the inoculum in flask and add 18mL of LB media and possibly antibiotics.
- 3. Grow the bacteria until the inoculum reach at O.D. 600=0,4-0,6.
- 4. 2mL must be recovered to form the sample “non-induced”.
- 5. Induce the remaining 17mL of inoculum with 17μL of IPTG mM.
- 6. Wait for 4 hours (or for the time deemed appropriate).
- 7. Take 2mL of the induced and centrifuge it for 10 minutes at 5000 rpm.
- 8. Discard the supernatant and resuspend pellet in 1/40 volume of PPB buffer (200mg/mL sucrose, 1mM EDTA, 30mM Tris-HCl pH 8.0). Keep in ice for 20 minutes.
- 9. Spin down cells in centrifuge at 5000 rpm for 15 minutes and collect supernatant into smaller high speed centrifuge tubes.
- 10. Resuspend pellet in 1/40 volume of 5mM MgSO4 buffer. Incubate in ice for 20 minutes.
- 11. Transfer samples to small high speed centrifuge tubes.
- 12. Spin both peri-prep supernatant and Osmotic shock preparation at 15000 rpm for 15 minutes.
- 13. Collect the supernatants, the sample is ready for E.L.I.S.A.
Periplasm protein preparation