Team:Paris Liliane Bettencourt/Notebook/2011/08/02/
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==Adrien Lhomme-Duchadeuil== | ==Adrien Lhomme-Duchadeuil== | ||
- | First, an estimation of how much antibiotics is necessary for Bacillus subtilis. | + | First, an estimation of how much antibiotics is necessary for Bacillus subtilis (thank you Axel).<br> |
Appropriate concentration in antibiotics | Appropriate concentration in antibiotics | ||
*Chloramphemicol : 5-10 µg/mL | *Chloramphemicol : 5-10 µg/mL | ||
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*It seems that even cuvettes that had an electric arc were able to produce a couple colonies, which means that it doesn't anihilate all the bacteria. | *It seems that even cuvettes that had an electric arc were able to produce a couple colonies, which means that it doesn't anihilate all the bacteria. | ||
- | |||
{| border="1" class="wikitable" style="text-align: center;" | {| border="1" class="wikitable" style="text-align: center;" | ||
|+Table of resutls of electroporation using Cao et al. method | |+Table of resutls of electroporation using Cao et al. method | ||
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* no growth | * no growth | ||
|} | |} | ||
+ | |||
+ | |||
+ | ===Transformation of ''B. subtilis'' via electro-poration based on Cao et al. 2011 article=== | ||
+ | |||
+ | '''Reagents and Equipment needed'''<br> | ||
+ | Mannitol, Sorbitol, Trehalose, LB, glycerol (99,5%) <br> | ||
+ | DNA (50 ng/μL), ''B. subtilis'' strain for transformation (no need to be competent) <br> | ||
+ | Cuvette (2mm), Gene Pulser (Bio-rad) set on 200 ohms and 25 μF (≈ 5 ms pulses) and 2 to 2.5 kV<br> | ||
+ | Centrifuge set at 3000g and 10 minutes <br> | ||
+ | Micropipettes: P2, P200, P1000<br> | ||
+ | Pipettes: 25 mL, 10 mL, 5 mL<br> | ||
+ | |||
+ | '''Day 1: preparation''' | ||
+ | *Growth medium: | ||
+ | **LB + 0.5 mol.L<sup>-1</sup> sorbitol → expected final volume: 52 mL for 1 cell culture (including 1 mL for taring the absorbance machine) | ||
+ | ***msorbitol ≈ 4,736 g | ||
+ | *Electro-poration medium: | ||
+ | **de-ionized water + 0.5 mol.L<sup>-1</sup> sorbitol + 0.5 mol.L<sup>-1</sup> mannitol + 0.5 mol.L<sup>-1</sup> trehalose + 10% glycerol (v/v) → expected final volume ≈ 40 mL for 1 round of poration | ||
+ | ***m<sub>sorbitol</sub> = m<sub>mannitol</sub> ≈ 3,643 g | ||
+ | ***m<sub>trehalose</sub> ≈ 7,566 g | ||
+ | ***V<sub>99,5 % glycerol</sub> ≈ 4 mL | ||
+ | *Recovery medium: | ||
+ | **LB + 0.5 mol.L<sup>-1</sup> sorbitol + 0.38 mol.L<sup>-1</sup> mannitol → expected final volume: ≈ 1.1 ml per poly... tube (Approximately 10 tubes ≈ 11 mL total) | ||
+ | ***m<sub>sorbitol</sub> ≈ 1,002 g (for 10 tubes) | ||
+ | ***m<sub>mannitol</sub> ≈ 0,761 g (for 10 tubes) | ||
+ | *Sterilise the solution: Filtration or autoclave. | ||
+ | *Inoculate a falcon containing 10 ml of LB with your ''subtilis'' strain and let it grow overnight (37°C with shaking). | ||
+ | |||
+ | '''Day 2: electro-poration''' | ||
+ | # Monitor the OD600 of your overnight culture. | ||
+ | # In a 500 ml erlenmeyer: dilute your culture into 50mL of Growth Medium so that the OD 600 is 0.01. | ||
+ | # Let the culture grow (37°C with shaking) until OD600 is between 0.85 and 1. | ||
+ | # Cool the cells on ice for 5 minutes. | ||
+ | # NOTE: KEEP ALL YOUR MATERIAL ON ICE AND ALWAYS MANIPULATE ON ICE FROM NOW ON, KEEP AS STERILE AS POSSIBLE. | ||
+ | # Distribute evenly the culture into two falcons and centrifuge at 3000g for 10 minutes. | ||
+ | # Get rid of supernatant, tap the falcon upside down on a piece of paper to get rid of as much solution possible. Detach the pellet. | ||
+ | # Add 20 mL of ice-cold electro-poration medium to one falcon, suspend the cells and transfer the content to the other falcon. Re-suspend. | ||
+ | # Centrifuge 3000g for 10 minutes. | ||
+ | # Remove supernatant, detach pellet, add 10 mL of ice-cold electro-poration medium. Centrifuge. | ||
+ | #Repeat step 10 with 5 mL, 2.5 mL and finally add 0.625 mL (1/80 of initial volume). | ||
+ | # During the centrifugation time, prepare the poly... tubes (label them) with recovery medium in them and put the cuvettes on ice: 1 of each at least has to be a control of cells without DNA, then 1 for each transformant you wish to make. | ||
+ | # Transfer in a cuvette: 60 μL of cells + 1 μL of DNA (50ng/μL; none if control). | ||
+ | # Pulse the cuvette. | ||
+ | # Transfer immediately the content into the poly... tube (STERILE CONDITIONS). | ||
+ | # Repeat 13, 14 and 15 for the number of prepared cuvettes. | ||
+ | # Incubate the poly... tubes at 37°C for 3 to 6 hours. | ||
+ | # Prepare plates with antibiotics (none for the control). | ||
+ | # Note: ≈ 25 ml of LBA per petri dish, make sure the antibiotic is well diluted, labeling should be obvious. | ||
+ | # Plate max 150 μL of transformed cells per petri dish and let grow overnight. |
Revision as of 12:38, 2 August 2011
Adrien Lhomme-Duchadeuil
First, an estimation of how much antibiotics is necessary for Bacillus subtilis (thank you Axel).
Appropriate concentration in antibiotics
- Chloramphemicol : 5-10 µg/mL
- Spectinomycin : 50-100 µg/mL
- Tetracyclin: 25 µg/mL
- Kanamycin: 5 µg/mL
- Erythromycin: 1 µg/mL + 25 µg/mL lincomycin
Results of electroporation: IT WORKED after three trials!
- Positive control worked
- Negative controls didn't show any colonies except when put in the presence of TetR (qty:12,5 µg/mL or 5µg/mL) which was insufficient => I will re-plate the improbable survivors on plates of different tetracyclin concentrations to test resistance.
- Cm resistant strain have survived in low quantities at both 30 and 5 µg/mL of antibiotics
- It seems that even cuvettes that had an electric arc were able to produce a couple colonies, which means that it doesn't anihilate all the bacteria.
tube 1: poration control no DNA (12,5 kV: ARC)
| tube 2: poration control no DNA (10kV: OK)
| tube 3: pHM3::TetR (12,5 kV: OK)
| tube 4: pHM3::TetR (10 kV: OK)
| tube5: pHM3::TetR (12,5 kV: ARC)
| tube 6: pHM3::TetR (10 kV: OK)
|
tube 7: S12::Cm (12,5 kV: ARC)
| tube 8: S12::Cm (10 kV: OK)
| tube 9: S12::Cm (12,5 kV: OK)
| tube 10: S12::Cm (10 kV: OK)
| CTL --: no bacteria
|
Transformation of B. subtilis via electro-poration based on Cao et al. 2011 article
Reagents and Equipment needed
Mannitol, Sorbitol, Trehalose, LB, glycerol (99,5%)
DNA (50 ng/μL), B. subtilis strain for transformation (no need to be competent)
Cuvette (2mm), Gene Pulser (Bio-rad) set on 200 ohms and 25 μF (≈ 5 ms pulses) and 2 to 2.5 kV
Centrifuge set at 3000g and 10 minutes
Micropipettes: P2, P200, P1000
Pipettes: 25 mL, 10 mL, 5 mL
Day 1: preparation
- Growth medium:
- LB + 0.5 mol.L-1 sorbitol → expected final volume: 52 mL for 1 cell culture (including 1 mL for taring the absorbance machine)
- msorbitol ≈ 4,736 g
- LB + 0.5 mol.L-1 sorbitol → expected final volume: 52 mL for 1 cell culture (including 1 mL for taring the absorbance machine)
- Electro-poration medium:
- de-ionized water + 0.5 mol.L-1 sorbitol + 0.5 mol.L-1 mannitol + 0.5 mol.L-1 trehalose + 10% glycerol (v/v) → expected final volume ≈ 40 mL for 1 round of poration
- msorbitol = mmannitol ≈ 3,643 g
- mtrehalose ≈ 7,566 g
- V99,5 % glycerol ≈ 4 mL
- de-ionized water + 0.5 mol.L-1 sorbitol + 0.5 mol.L-1 mannitol + 0.5 mol.L-1 trehalose + 10% glycerol (v/v) → expected final volume ≈ 40 mL for 1 round of poration
- Recovery medium:
- LB + 0.5 mol.L-1 sorbitol + 0.38 mol.L-1 mannitol → expected final volume: ≈ 1.1 ml per poly... tube (Approximately 10 tubes ≈ 11 mL total)
- msorbitol ≈ 1,002 g (for 10 tubes)
- mmannitol ≈ 0,761 g (for 10 tubes)
- LB + 0.5 mol.L-1 sorbitol + 0.38 mol.L-1 mannitol → expected final volume: ≈ 1.1 ml per poly... tube (Approximately 10 tubes ≈ 11 mL total)
- Sterilise the solution: Filtration or autoclave.
- Inoculate a falcon containing 10 ml of LB with your subtilis strain and let it grow overnight (37°C with shaking).
Day 2: electro-poration
- Monitor the OD600 of your overnight culture.
- In a 500 ml erlenmeyer: dilute your culture into 50mL of Growth Medium so that the OD 600 is 0.01.
- Let the culture grow (37°C with shaking) until OD600 is between 0.85 and 1.
- Cool the cells on ice for 5 minutes.
- NOTE: KEEP ALL YOUR MATERIAL ON ICE AND ALWAYS MANIPULATE ON ICE FROM NOW ON, KEEP AS STERILE AS POSSIBLE.
- Distribute evenly the culture into two falcons and centrifuge at 3000g for 10 minutes.
- Get rid of supernatant, tap the falcon upside down on a piece of paper to get rid of as much solution possible. Detach the pellet.
- Add 20 mL of ice-cold electro-poration medium to one falcon, suspend the cells and transfer the content to the other falcon. Re-suspend.
- Centrifuge 3000g for 10 minutes.
- Remove supernatant, detach pellet, add 10 mL of ice-cold electro-poration medium. Centrifuge.
- Repeat step 10 with 5 mL, 2.5 mL and finally add 0.625 mL (1/80 of initial volume).
- During the centrifugation time, prepare the poly... tubes (label them) with recovery medium in them and put the cuvettes on ice: 1 of each at least has to be a control of cells without DNA, then 1 for each transformant you wish to make.
- Transfer in a cuvette: 60 μL of cells + 1 μL of DNA (50ng/μL; none if control).
- Pulse the cuvette.
- Transfer immediately the content into the poly... tube (STERILE CONDITIONS).
- Repeat 13, 14 and 15 for the number of prepared cuvettes.
- Incubate the poly... tubes at 37°C for 3 to 6 hours.
- Prepare plates with antibiotics (none for the control).
- Note: ≈ 25 ml of LBA per petri dish, make sure the antibiotic is well diluted, labeling should be obvious.
- Plate max 150 μL of transformed cells per petri dish and let grow overnight.