Team:IONIS Paris/Notebook

Notebook

PCR VVD BioBricks

PCR.2 VVD - 2nd part

Aim: second step for VVD amplification and mutagenesis
End of PCR.2 VVD preparation from 07.05.15
Component PCR.2 VVD 1 (x2) PCR.2 VVD 2 (x2) Control negative Control negative
DNA Mix "PCR.1 VVD1"
1 µl
--
1 µl
--
DNA Mix "PCR.1 VVD2"
--
1 µl
--
1 µl
Taq Pol
0.5 µl
0.5 µl
0.5 µl
0.5 µl

Run of the IGEM TAQ program

Electrophoresis

Aim: check for digestion

1 gel: 120ml TAE 1X + 1,2g agarose + 160µl BET
Sample: 10 µl of PCR product+ 2 µl of loading dye (6x) only 10 µl loaded.
Ladder: 1 µl of 2log ladder (1µg/µl) + 2 µl loading dye (6x) + 9 µl water MQ only 10 µl loaded.
110 V, 30 min

Expected results

Expected results

Results

Results

We get expected bands about 250 bp meaning DNA have been highly amplified

Purification of PRC product

Aim: purify and concentrate amplified DNA

Use of a QIAquick PCR Purification kit and using a microcentrifuge.

For step 1: add 5 volumes of PB buffer for 1 volume of PCR product

  • 200 µl of PB buffer added into both coupled of tube with 40 µl of remaining PCR product
  • Mix of same PCR product together into a new tube
  • Put mixes into their own purification column
Then, we followed the protocol from the supplier

At the end of the purification, we get 1 tube “PCR2, VVD1, 13/05/2015” and another one “PCR2, VVD2, 13/05/2015”
Stored at -20°C.


13 May 15

PCR VVD BioBricks

PCR.1 VVD - 2nd part

Aim: first step for VVD amplification and mutagenesis
PCR.1 VVD preparation
Component PCR.1 VVD 1 (x2) PCR.1 VVD 2 (x2)
PCR mix
43,5 µl
43,5 µl
Primer VVD Fwd 1
1 µl
--
Primer VVD Rev 1
1 µl
--
Primer VVD Fwd 2
--
1 µl
Primer VVD Rev 2
--
1 µl
Water
2 µl
2 µl
Plasmid VVD
1 µl
1 µl
Taq Pol
0.5 µl
0.5 µl

Run of the IGEM TAQ program

Electrophoresis

Aim: check for DNA amplification

Low melting point gel
Sample: 10 µl of PCR product+ 2 µl of loading dye (6x)
Ladder: 1 µl of 2log ladder (1µg/µl) + 2 µl of loading dye (6x) + 9 µl water MQ
110 V, 26 min

Expected results

Expected results

Results

Results

We get expected bands about 200 bp with a good intensity meaning DNA have been highly amplified without contamination.

Purification of PRC product

Aim: purify and concentrate amplified DNA

Use of a QIAquick PCR Purification kit and using a microcentrifuge.

For step 1: add 5 volumes of PB buffer for 1 volume of PCR product

  • 200 µl of PB buffer added into both coupled of tube with 40 µl of remaining PCR product
  • Mix of same PCR product together into a new tube
  • Put mixes into their own purification column
Then, we followed the protocol from the supplier

At the end of the purification, we get 1 tube “PCR1, VVD1, 07/05/2015” and another one “PCR1, VVD2, 07/05/2015”
Stored at -20°C.

PCR.2 VVD

Aim: second step for VVD amplification and mutagenesis

dNTP preparation (4µL):
1 µl dATP 100 mM
1 µl dCTP 100 mM
1 µl dTTP 100 mM
1 µl dGTP 100 mM
Store at -20°C

PCR.2 VVD preparation
Component PCR.2 VVD 1 (x2) PCR.2 VVD 2 (x2) Control negative (x2)
Primer VVD Fwd 1
1 µl
--
--
Primer VVD Rev 3
1 µl
--
--
Primer VVD Fwd 4
--
1 µl
--
Primer VVD Rev 2
--
1 µl
--
Water
39.5 µl
39.5 µl
41.5 µl
Buffer RB
5 µl
5 µl
5 µl
dNTPs
0.5 µl
0.5 µl
0.5 µl
Mg2+ 50mM
1.5 µl
1.5 µl
1.5 µl

7 May 15

PCR VVD BioBricks

PCR.1 VVD

Aim: first step for VVD amplification and mutagenesis

dNTP preparation (4µL):
1 µl dATP 100 mM
1 µl dCTP 100 mM
1 µl dTTP 100 mM
1 µl dGTP 100 mM
Store at -20°C

PCR cycle – IGEM TAQ
T°C Time Cycle
Initial denaturation
95
30 sec
1
Denaturation
95
30 sec
17
Annealing
60
30 sec
Extension
72
1 min / kb
Final extension
72
5 min
1
Hold
4
Infinite

Mix PCR preparation without primers, plasmid and Taq
MQ water 182,5 µl
Mg2+ 50 mM 7,5 µl
Buffer RB 25 µl
dNTPs 2,5 µl

Mix preparation for 5 tubes: 43,5 µl / tube


6 May 15

Results

Results from the liquid cultures: all the cultures have grown

Miniprep

Aim: plasmid purification from transformed bacteria

Protocol from MO BIO, UltraClean® Standard
Mini plasmid Prep Kit l
4 plates with Ampicillin

Dilution of the glycerol in water
Percentage in mass not in volume
Ex: 50% glycerol solution 50 g Glycerol + 50 g water (mQ)
Then filtration with vacuum pump

Glycerol preparation & Glycerol Stock

Aim: store the transformed bacteria for later use

Weight 50 g of pure Glycerol
Weight 50 g of distilled water
Mix and homogenize the solution
Filtration with vacuum pump, then close the bottle under PSM
Under PSM class II: put 1ml of liquid culture in a 1,5 ml sterile tube (pDusk, pDawn, psB1C3, VVD)
Centrifugate 1mL of liquid culture 4000 rpm, 5 min
Remove and discard the supernatant
Under PSM: resuspend with 0,5 ml of LB without antibiotics
Add 0,5 ml of glycerol 50% (25% final)
Homogenize
Transfer in an identified cryotube and store at -80°C


1 April 15

Results

Results observation for the transformed cells culture (in Petri dishes): no colonies for the positive control pUC19, other plates and negative controls are as expected.

Liquid culture

Antibiotics concentration:
Use of 3 colonies (3 tubes) from VVD, pDawn, pDusk, pSB1C3 3ml LB Broth + 3µl
Antibiotic in double click tubes (12ml) 37°C, 120rpm, O/N



31 March 15

Amplification of pDusk, pDawn, pSB1C3, VVD, pUC19 into E.coli DH5 alpha

Plate preparation

Aim: preparation of selective LB agar plate

Add 50 ml of LB agar into a Falcon tube (50ml) + 50 µl antibiotic
For 25 ml / plate (2 plates)

Agar plates preparation
Plasmid Antibiotic Number of plate Remarks
pDusk
Kanamycin
1
50 µl of transformed cells
1
100 µl of transformed cells
1
50 µl of competent cells (neg control)
pDawn
Kanamycin
1
50 µl of transformed cells
1
100 µl of transformed cells
1
50 µl of competent cells (neg control)
pSB1C3
Chloramphenicol
1
50 µl of transformed cells
1
100 µl of transformed cells
1
50 µl of competent cells (neg control)
VVD
Amplicilin
1
50 µl of transformed cells
1
100 µl of transformed cells
1
50 µl of competent cells (neg control)
pUC19 Amplicilin
1
50 µl of transformed cells

Summary:
6 plates with Kanamycin
3 plates with Chloramphenicol
4 plates with Ampicillin

Antibiotics concentration:
Ampicillin: 50 µg.ml-1 diluted 1/1000
Chloramphenicol: 25 µg.ml-1 diluted 1/1000
Kanamycin: 50 µg.ml-1 diluted 1/1000


Cell transformation

E.coli DH5 alpha (NEB5 alpha competent coli)
Stock: 6 tubes 0.20 ml / tube; 50 pg.µl-1
Aliquot of 50 µl of competent E.coli / transformation

Into aliquots, added plasmids or nothing (control) as following:
Tube n° Reagent added Volume (µl) Tube n° Reagent added Volume (µl)
1
pDusk
1
5
pSB1C3
1
2
pDawn
1
6
(Amp control)
/
3
VVD
1
7
(Kan control)
/
4
pUC19
1
8
(Cam control)
/

Incubation on ice, 30 min
Heat shock exactly 42°C, 30 seconds. Do not mix
Keep on ice for 5 min, do not mix
400 µl of LB in sterile condition without antibiotic, pipette up and down gently
Incubation 37°C, 120 rpm, 1 hour
Centrifuge, 4000 rpm, 5 min
Remove and discard 300 µl of supernatant; resuspend gently using a pipette the remaining 150 µl
Plate bacteria following the table about plate preparation
Incubate at 37°C, O/N

Expected results:
No colonies into the 3 control plates
Many colonies into all the other plates;
Colonies from pSB1C3 transformation should exhibit red color


30 March 15

Preparation of media

Aim: prepare media for bacteria culture
For 250mL
LB Broth LB Agar
2.5g tryptone 2.5g tryptone
2.5g NaCl 2.5g NaCl
1.25g yeast extract 1.25g yeast extract
5.0g agar

Qsp 250 ml distilled water
2 bottles of LB broth and 2 bottles of LB agar (+magnetic stirrer)
Auctoclave 121°C



28 March 15
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IONIS Paris team. 2015 Edition