Team:ULB-Brussels/Material&Methods
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Revision as of 22:20, 26 September 2012
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Material & Methods
Summary |
1. E. coli strains
MC1061 : F− araD139, Δ(ara-leu)7696,galE15, galK16, Δ(lac)X74, rpsL (Strr), hsdR2 (rK−mK+), mcrA mcrB1
TOP10 (Invitrogen) : F- mcrA Δ(mrr-hsdRMS-mcrBC) φ80lacZΔM15 ΔlacX74 nupG recA1 araD139 Δ(ara-leu)7697 galE15 galK16 rpsL(StrR) endA1 λ-
2.Plasmids
pP70 : plasmid which contains the microcin C7 operon and a resistance to chloramphenicol
pCID909 : plasmid which contains the microcin B17 operon and a resistance to ampicilin
pBAD18: arabinose-inducible vector containing kanamicyn resistance
pBAD33: arabinose-inducible vector containing chloramphenicol resistance
pSB1K3 : standard iGEM plasmid which has a resistance to Kanamycin
pSB1C3 : standard iGEM plasmid which has a resistance to Chloramphenicol
pSB1A3 : standard iGEM plasmid which has a resistance to Ampicilin
3. Primers
The following primers were produced by Sigma-Aldrich and the sequences are shown in a 5’-3’ orientation.
3.1. Primers for first amplification of each gene
MccBA-FOR
5'-CCTCAGCTACACGTGCACTGATTAAAGAGGAGAAAATGGAATTAAAAGCGAGTG-3'MccBA-REV
5'-GCCGCGAAGCGGCGTCGGCTTGAATGAATTGTTATAACCTCAGATATGTGAACCACT-3'MccBB-FOR
5'-CCTCAGCTACACGTGCACTGATTAAAGAGGAGAAAATGGTGCTCCCTGATATTAA-3'MccBB-REV
5'-GCCGCGAAGCGGCGTCGGCTTGAATGAATTGTTATAACCTTATCTCTCCAGACAGCT-3'MccBC-FOR
5'-CCTCAGCTACACGTGCACTGATTAAAGAGGAGAAAATGTCAAAACACGAAC-3'MccBC-REV
5'-GCCGCGAAGCGGCGTCGGCTTGAATGAATTGTTATAACCTTACTGTAGACATTTATCAT-3'MccBE-FOR
5'-CCTCAGCTACACGTGCACTGATTAAAGAGGAGAAAATGGTTACATTAAAAATGGC-3'MccBE-REV
5'-GCCGCGAAGCGGCGTCGGCTTGAATGAATTGTTATAACCTCATTGAGAACTCCAG-3'MccBF-FOR
5'-CCTCAGCTACACGTGCACTGATTAAAGAGGAGAAAATGACCATACCTCT-3'MccBF-REV
5'-GCCGCGAAGCGGCGTCGGCTTGAATGAATTGTTATAACCTCAGTCTCCTGTT-3'MccCC-FOR
5'-CCTCAGCTACACGTGCACTGATTAAAGAGGAGAAAATGTTAATTGGTGTCTAC-3'MccCC-REV
5'-GCCGCGAAGCGGCGTCGGCTTGAATGAATTGTTATAACCTCATACCATCTCCTTTTTAA-3'MccCF-FOR
5'-CCTCAGCTACACGTGCACTGATTAAAGAGGAGAAAATGATGATACAATC-3'MccCF-REV
5'-GCCGCGAAGCGGCGTCGGCTTGAATGAATTGTTATAACCTTATTTCTCGGTAG-3'3.2. Primers for second amplification
Common-FOR
5'-GCAGAATTCGCGGCCGCTTCTAGAGCCTCAGCTACACGTGCACTG-3'Common-REV
5'-AGCCTGCAGCGGCCGCTACTAGTAGGTTATAACGCTTGAATTAAGCCGCGCCGCGAAGCGGCGTCGGCTTGAAT TTATGGGAATGGTAC-3'3.3. Primers for insertion in immunity pBAD plasmid
ImMccBG-FOR
5'-CATTCTAGAATTAAAGAGGAGAAAATGGATATAATAGAAAAAAG-3'ImMccBG-REV
5'-GCACATGCATCATCCCCCTAC-3'ImMccCF-FOR
5'-AGCCAAGCTTGCATGTTATTTCTCGGTAG-3'ImMccCF-REV
5'-AGCCAAGCTTGCATG TTATGGGAATGGTAC-3'ImMccCEFOR
5'-ATTCGAGCTCGGTACATGGTGCAGATTATC-3'ImMccCEREV
5'-TTTCTCCTCTTTAATTTAACCAATTACTTTTGAAT-3'3.4. Primers for fixing BE
MccCB Endo For
5'-TTGCTTTAGGTTCCTTAAGG-3'MccCB Endo Rev
5'-TCAGCTTCTGGTACCTTATG-3'MccCB synthgene For1
5'-AAGGATGATTTCTGGAATTCGCGGCCG-3'MccCB synthgene Rev1
5'-CCTTAAGGAACCTAAAGCAA-3'MccCB synthgene For2
5'-CATAAGGTACCAGAAGCTGA-3'MccCB synthgene Rev2
5'-AGCGGCCGCTACTAGTAGGTTATAACGCTT-3'4. Media for bacteria
Luria-Bertani (LB):
• 10g/l tryptone;
• 5g/l yeast extract;
• 5g/l NaCl
• (+12g/l of Agar for solid medium)
5. Solutions
• Mg(SO4)2 (10-2M)
• DMSO
6. Antibiotics
• Ampicilin 100mg/ml
• Kanamycin 50 mg/ml
• Chloramphenicol 20 mg/ml
Associated with LB, these antibiotics were diluated a thousand times.
7. Enzymes
• EcoRI, XbaI, SphI, PstI, 10U/µl
• rAPID Alkaline Phosphatase 1U/µl
• Taq polymerase Gotaq 5U/µl
• T4 DNA ligase 1U/µl
All these enzymes are associated with their own buffer.
8. PCR protocol
Pcr solution:
• 1µl of dNTPs (10mM each)
• 0.5µl of primer 1 (20µM)
• 0.5µl of primer 2 (20µM)
• 10µl of buffer10X (color or colorless)
• 3µl of MgCl2
• 0.5µl of primer 1 (20µM)
• 0.5µl of primer 2 (20µM)
• 1µl of DNA
• 0.25µl of Taq polymerase
• 1.5µl of DMSO (optional)
• 33.75 (or 32.25 if DMSO) µl of H20
Program:
• 1:94°C - 5min
• 2:94°C - 30sec
• 3:X°C - 30sec (X depends on the TM of the primer)
• 4:72°C - Y min (Y=30sec/500pb), (30 times from step2)
• 5:72°C 10min
9. Kits
Gel purification kit: Sigma-Aldrich, GenEluteTm PCR Clean-up (ref:NA1020)
Mini prep kit: Zymo Research, ZyppyTM Plasmid Miniprep Kit (ref: D4036)
10. Restriction
• Run a PCR to amplify the genes of interest with floating restriction sites.
• Digest the PCR product and the vector by the appropriate restriction enzymes.
Restriction mix for the PCR products (insert):
*Xµl of PCR products (X depending on the concentration of insert of the PCR products).
*1µl of each restriction enzyme.
*2µl appropriate buffer 10X.
*Add Yµl bi-distilled water to reach a final volume of 20µl.
Restriction mix for the vector:
*200ng of vector.
*1µl of each restriction enzyme.
*2µl appropriate buffer 10X.
*Add Xµl bi-distilled water to reach a final volume of 20µl.
• Incubate for one hour at 37°C
11. Ligation
• The ligation reaction proceeds with 100ng of restricted vector. The quantity of the PCR products is calculated according to the following formula: (100ng vector x PCR product size x 3)/(vector size) = PCR product quantity in ng.
Ligation mix:
*1µl T4 DNA ligase.
*2µl buffer (10x).
*Add the two restrictions reactions in a final volume of 20µl.
*Add bi-distilled water for a final volume of 20µl.
*ADN
• Incubate the ligation reaction overnight at room temperature.
• Electroporate the ligation on bacteria.
12. Preparation of electrocompetent cells
• Dilute 100x an overnight culture in LB medium and incubate at 30°C with shaking until the OD600nm reaches 0.5.
• Centrifuge in a cold rotor at 4500 rpm 4°C for 30 minutes.
• Remove supernatant, resuspend in 20ml cold H20, then centrifuge as above. Repeat this step twice.
• Remove supernatant, resuspend in 10ml cold glycerol, then centrifuge as above.
• Remove final supernatant carefully, resuspend in 1ml cold glycerol.
• Store it at -80°C.
13. Electroporation
DNA dialysis:
• Fill a petri dish with dH2O.
• Make float a round 0.025µm Millipore dialysis filter on dH2O.
• Place the DNA on the Filter for 20 min, then take it back.
Electroporation:
• Add dialysed DNA in 50µl of electrocompetent cells.
• Put mixture in an electroporation cuvette.
• Electroporate it at 2,500 volt, 200Ω and 25µFD.
• Add quickly 1ml of LB.
• Put the bacteria for 1 hours at 37°C.
• Plate the volume you need on dish (with appropriate antibiotics).
14. Sensitivity test
This experiment requires overnight cultures of differents strains containing the pp70 plasmide encoding Microcin C7, the pCID909 plasmid encoding Microcin B17 and a sensitive strain containing no plasmid.
1. Plate each of the previously cited strains of bacteria on different petri dishes with appropriate antibiotics.
2. Centrifuge 15µl of each overnight culture. Put separately, 2µl of supernatant of each liquid culture on previously made bacterial lawn from step 1. Incubate it at 37°C overnight.
For our experiment, we actually used two different clones (3 and 4) of bacteria containing the pCID909 plasmid encoding for microcin B17. We put 4 different drops on each bacterial lawn (2 drops of microcin B17 supernatant, 1 of microcin C7 supernatant and 1 of sensitive MC1061 supernatant).
Supernatant of microcin C7 culture and microcin B17 culture are supposed to contain the corresponding microcin while supernatant of sensitive strain should not be toxic for any strain.