Team:ETH Zurich/Biology/Cloning

From 2011.igem.org

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= Preparation of glycerol stocks =
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== Preparation of glycerol stocks ==
From the overnight cultures 15 % glycerol were made and stored at -20 °C
From the overnight cultures 15 % glycerol were made and stored at -20 °C
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Revision as of 18:26, 27 October 2011

Can you feel the smoke tonight?
 

Contents

Material and methods

A lot of lab work was done to assemble SmoColi .

Double digest for cloning

Variant 1 Variant 2
Plasmid
  • x µl Plasmid (~2 µg if possible)
  • 2 µl EcoRI
  • 2 µl XbaI
  • 5 µl buffer 4
  • 0.5 µl BSA
  • adjust to 10 µl ddH2O
  • x µl Plasmid (~2 µg if possible)
  • 3 µl PstI
  • 2 µl Spe I
  • 5 µl buffer 2
  • 0.5 µl BSA
  • adjust to 10 µl ddH2O
Insert
  • x µl Insert (~2 µg if possible)
  • 2 µl EcoRI
  • 3 µl Spe I
  • 5 µl buffer 1
  • 0.5 µl BSA
  • adjust to 10 µl ddH2O
  • x µl Insert (~2 µg if possible)
  • 3 µl XbaI
  • 2 µl Pst 1
  • 5 µl buffer 3
  • 0.5 µl BSA
  • adjust to 10 µl ddH2O
⇒ incubate for 2 h at 37°C and gel purify


Ligation

  1. Ligation mix
    • 1:5 ratio of plasmid backbone : Insert
    • 1 µl 10 x T4 Ligase buffer (vortex)
    • 0.5 µl T4 Ligase
    adjust to 10 µl with ddH2O
  2. Let the mixture stay for 1h at room temperature
  3. Denature the ligase at 65 °C for 5 min


Transformation

  1. Thaw competent cells on ice.
  2. Add 200 µl cells to 10 µl ligation mix
  3. Place the mixture put them on ice for 30 min
  4. Heatshock 30 sec at 42 °C
  5. Place the mixture again on ice for 2 min
  6. Add 4 x SOC medium (800 µl)
  7. Let them grow for 60 min at 37 °C
  8. Spin cells down for 5 min at low speed
  9. Remove the supernatant, resuspend the cells
  10. Spread 100 µl of the cells onto the plates.


PCR

PCR mixture

  • 10 µl 10x Phusion buffer
  • 1 µl 10 mM dNTPs
  • 2.5 µl 10 µM forward primer
  • 2.5 µl 10 µM reverse primer
  • 1 ng DNA template
  • 0.2 µl Phusion polymerase
  • optional DMSO

adjust to 50 µl with ddH2O

PCR procedure

  • initial denaturation: 98 °C for 30 sec
  • 35 cycles
    • denaturation: 98 °C for 5 sec
    • annealing: annealing temperature (see Primer list) for 10 sec
    • extension: 72 °C for 30 sec per kb
  • final extension: 72°C for 5 min
  • storage at 4°C


Colony PCR

Pick a colony and resuspend in 10 µl ddH2O

PCR mixture

  • 1 µl colony
  • 1 µl 10x taq buffer
  • 0.8 µl dNTPs
  • 0.05 µl 10 µM forward primer
  • 0.05 µl 10 µM reverse primer
  • 0.1 µl Taq

adjust to 10 µl with ddH2O

PCR procedure

  • initial denaturation: 95 °C for 30 sec
  • 25 cycles
    • denaturation: 95 °C for 30 sec
    • annealing: 55 °C for 30 sec
    • extension: 68 °C for 90 sec
  • final extension: 68 °C for 5 min
  • storage at 4 °C


Preparation of glycerol stocks

From the overnight cultures 15 % glycerol were made and stored at -20 °C

AlcR testing

  • preparatory overnight culture of JM101 with AlcR-testsystem in LB medium
  • cultures in M9 minimal medium
  • all final experiments were done in 15 ml falcons with 3 ml cells
  • AlcR production was induced with either 0, 1, 100 ng/ml anhydrotetracycline added at 4 °C
  • For AlcR activation 0, 10, 1000 µM acetaldehyde was added at 4 °C
  • Cells were incubated at 37 °C in closed tubes
  • Fluorescence of GFP was measured after 1 h, 2 h and over night, all measurements were done in triplicates


Chemically competent E. coli (JM 101)

1 M MOPS

  • 10.46 g MOPS

Total 50 ml

1 M CaCl2•2H2O

  • 7.35 g CaCl2

Total 50 ml

3 M KOAc

  • 14.72 g KOAc

Total 50 ml

TFBI

  • 1.2 g RbCl
  • 0.99 g MnCl2•4H2O
  • 1 ml 1 M CaCl2
  • 1 ml 3 M KOAc
  • 15.33 ml glycerol 100 %

Total 100 ml; bring to pH 5.8 with 0.2 N acetic acid; filter sterilize

TFBII

  • 0.048 g RbCl
  • 3 ml 1 M CaCl2
  • 0.4 ml 1 M MOPS pH 7
  • 7 ml glycerol 100 %

filter sterilize

Preparation

  • add 0.5 ml fresh O/N culture to 250 ml LB medium
  • shake at 37 °C until OD600 is 0.5-0.7
  • cool on ice, spin down at 4 °C/ 3000rpm/ 5 min, put pellet on ice
  • resuspend pellet in 5 ml TFBI with pipet, add 70 ml cool TFBI, incubate on ice for 2-4 h
  • spin down at 4 °C/3krpm/ 5min
  • resuspend pellet in 10 ml TFBII
  • aliquot suspension into pre-cooled tubes, 200 µl each
  • freeze aliquots immediately in dry ice, store at -80 °C


Chemically competent E. coli (DH5α)

Done according to the [http://openwetware.org/wiki/Preparing_chemically_competent_cells_%28Inoue%29 Inoue protocol] on OpenWetWare

SDS page

(D-BSSE MolBioSkript 2011)

Cast gels

For 4 gels:
Compound 12% Running gel 5% Stacking gel
H2O (ml) 6.7 3.5
1.5 M Tris-HCl, pH 8.8 (ml) 5
0.5 M Tris-HCl, pH 6.8 (ml) 3
10% (w/v) SDS (ml) 0.2 0.08
Acrylamide/Bis-acrylamide (30%/ 0.8% w/v) (ml) 8 1.32
10% (w/v) ammoniumpersulfate (APS) (ml) 0.1 0.1
TEMED (&mikro; l) 30 15

Preparation

  1. Clean glass plates with 30% EtOH (front- and back-glass plate, 10-spike comb)
  2. Assemble them in SDS-PAGE gel casting apparatus
  3. Mix the ingredients for the running gel except for APS and TEMED
  4. Add APS and TEMED to the lower gels solution, mix by gently
  5. Pour the gels quickly with a 2 mL pipette. Leave about 1 cm below the bottom of the comb for the stacking gel and avoid formation of air-bubbles.
  6. Overlay your gels very carefully with isopropanol. The isopropanol helps to avoid drying-out of gels during polymerization and puts weight on the gel thereby helping to obtain a smooth surface.
  7. Wait until all gels have polymerized completely
  8. Mix the components of the stacking gel while the running gel is polymerizing, leave out the APS and TEMED
  9. Remove the isopropanol completely, wash with 0.5 mL of H2O to get rid of all isopropanol
  10. Add APS and TEMED to the stacking gel solution, mix by gently shaking the Falcon tube
  11. Pour the stacking gel on top of the running gel
  12. Insert the comb without introducing air-bubbles.
  13. Wait until gels have completely polymerized (approx. 30 min)
  14. Remove the gels from the casting apparatus, remove the combs, and clean the gels from gel-remnants


SDS-PAGE

  1. Assemble SDS-PAGE apparatus
  2. Load 5 µl protein marker into the first well
  3. Mix 50 μl samples with 50 µl Laemmli buffer
  4. Incubate the mix at 95°C for 10 min in a heating block
  5. Load 10 µl of your samples into the following wells (non-induced, induced…)
  6. Connect your gel chamber to the power supply, run the gel with 120 V fixed for around 40 min, watch the advance of the blue front
  7. When the blue front is ca. 0.5 cm before the end of the gel, stop the run and remove the gels from the apparatus
  8. Remove the gel from the glass-plates
  9. Add ca. 100 ml Coomassie staining solution to the gel and incubate on the shaker for ca. 30 min
  10. Rinse the gel with ddH2O
  11. Add ca. 100 ml destaining solution to the gel, incubate for until the protein-bands are clearly visible and background signals are almost completely disappeared


Western Blot


Diffusion test in tubes

  • agarose with E. coli with IPTG inducible GFP were filled in different tubes
  • one end of the tube was put in a IPTG solution


Mediums

Agar plates

  • 18g/l Agar added per liter respective medium

SOB

  • 0.5 % (w/v) yeast extract
  • 2 % (w/v) tryptone
  • 10 mM NaCl
  • 2.5 mM KCl
  • 20 mM MgSO4

adjust to pH 7.5 by adding 1M NaOH

SOC

  • SOB
  • 20 mM glucose

LB medium

  • 10 g Bacto-tryptone
  • 5 g yeast extract
  • 10 g NaCl

Total 1 l

M9 minimal medium

10x M9

  • 12.8 g Na2HPO4
  • 3 g KH2PO4
  • 0.5 g NaCl
  • 1 g NH4Cl

Total 100 ml

autoclave seperatly

  • 10 x M9
  • 1 M MgSO4
  • 1 M CaCl2
  • 1 % (w/v) thiamine solution
  • 20 % (w/v) glucose


Antibiotics

  • Ampicilin: 50ug/ml for low copy and 150ug/ml for high copy plasmids
  • Chloramphenicol: 34ug/ml for low copy and 100ug/ml for high copy plasmids
  • Kanamycin: 10ug/ml for low copy and 30ug/ml for high copy plasmids


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