NanoBio: Protocol for gene knockout: Difference between revisions

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#Pick colonies
#Pick colonies
#PCR Master Mix
##Pick colonies with a pipette tip and resuspend in 20 μl of cold ddH<sub>2</sub>O by pipetting up and down
#PCR Primer Mix
##Pipette 3μl onto an index plate with appropriate antibiotic for use later if colony is good.
#PCR Reaction volumes
##Grow index plate at 37°C o/n.
#PCR cycler
# Make master mix:..............20 μl/rxn
 
## 10x PCR buffer........5
 
## 10mM dNTPs............0.6
## 50mM Mg<sub>2</sub>SO<sub>4</sub>.........0.4
## 10x enhancer..........6
## ddH<sub>2</sub>O....................3
#*''Note: mix together {n+1} volumes of each substrate, where n=the number of reactions you will be doing.
#*''Note: these volumes are for 100uL reactions. Adjust if using lower volumes.''
# Make 10μM primer mix:
## Mix 2μL of both primers (100μM stock) into 18μL ddH<sub>2</sub>O.
## If you need more than 20μL of primer, adjust volumes. (1μL of each per total 10μL mix)
# For each 20 μl reaction, mix together in PCR tube.
## 15μL Master Mix
## 2.0μL Colony suspension (template)
## 2.0μL Primer mix (10μM each primer)
## 1.0μL Pfx Platinum DNA Pol
# Program cycle in PCR thermocycler with steps 2-4 repeating 34 times.
## 94°C at 5:00 (m:s)
## 94°C at 0:15
## 55°C at 0:30
## 68°C at 2:00
## 68°C at 7:00
## 4°C at ∞




Revision as of 16:45, 8 June 2009

Transform pKD46 into (chemically competent) target strain

  1. Follow instructions from the wiki for Bacterial Transformation of Chemically Competent Cells
  2. Grow cells on LB+Amp plates o/n at 30°C

PCR amplify linear fragment from pKD3 or pKD4

Note: these PCR reaction volumes are for Pfx Platinum DNApolymerase. You will want to adjust your PCR if using another DNA Pol

  1. See Primer Design page here.
    • Takes about 3days to order 70nt oligos from IDTdna.org
    • Make sure to dissolve each primer stock to 100μM in ddH2O.
    • Add oligo to OligoRegistry worksheet.
  2. Make master mix:..............μl/rxn
    1. 10x PCR buffer........25
    2. 10mM dNTPs............3
    3. 50mM Mg2SO4.........2
    4. 10x enhancer..........30
    5. ddH2O....................34
    • Note: mix together {n+1} volumes of each substrate, where n=the number of reactions you will be doing.
    • Note: these volumes are for 100uL reactions. Adjust if using lower volumes.
  3. Make 10μM primer mix:
    1. Mix 2μL of both primers (100μM stock) into 18μL ddH2O.
    2. If you need more than 20μL of primer, adjust volumes. (1μL of each per total 10μL mix)
  4. For each reaction, mix together in PCR tube.
    1. 94μL Master Mix
    2. 1μL Template DNA (either pKD3 for ChlR or pKD4 for KanR)
    3. 3μL Primer mix (10μM each primer)
    4. 2μL Pfx Platinum DNA Pol
  5. Program cycle in PCR thermocycler with steps 2-4 repeating 34 times.
    1. 94°C at 5:00 (m:s)
    2. 94°C at 0:15
    3. 55°C at 0:30 (even if the Ta is higher, use 55°C)
    4. 68°C at 2:00
    5. 68°C at 7:00
    6. 4°C at ∞
  6. PCR purify next morning.
  7. Digest template with DpnI
    • Note: DpnI only digests methylated DNA. This digestion will knockout any residual plasmid so that it will not interfere with the electroporation of the PCR fragment.
    1. Volumes as follows:
      • 28μL PCR purified sample (the entire sample)
      • 3.5μL NEB 10x buffer #4
      • 0.3μL DpnI enzyme
      • 5.2μL H2O
    2. Incubate at 37°C for 1 hour.
  8. PCR purify again. Check products on a gel.

Make {target strain, pKD46} electrocompetent

There are a couple of tricks to making cells electrocompetent. (1) Remove as much salt from the cell suspensions as possible to prevent arcing. (2) The cells must remain cold (either 4°C cold room or on ice). Once in DI water, the cells become very sensitive to temperature changes and the transformation efficiency drops dramatically if cells are allowed to warm up above 4°C at any step. It is also better to make your cells "fresh" so we only do small volumes of cells.

  1. Pre-chill all tubes, solutions, and cuvettes!
  2. Pick some colonies from a fresh plate (or back dilute with 20uL from o/n culture) and grow at 30degC in 2mL LB+Amp.
    • Note: Include enough samples for +/- L-arabinose induction
  3. When OD600 = 0.1, add 20uL of L-arabinose stock to induce pKD46 λ-red expression
  4. Continue growing at 30degC until OD600 = 0.4 - 0.6
  5. Aliquot 1mL from each sample into 2x 1.5mL centrifuge tubes
  6. Chill cells in ice-water bath 10-15min
  7. Centrifuge 10m at 4000rcf at 4°C
    • Note: the centrifuge next to the bioflo cabinet has temp control
  8. Pipette/discard supernatant and resuspend cells (GENTLY) in 1mL ice-cold dH2O
  9. Centrifuge 10m at 4000rcf at 4°C
  10. Resuspend cells (GENTLY) in 0.5mL ice-cold dH2O
    • Note: after washing in DI water, the cells become more and more difficult to spin down. Using 10% glycerol can help spin down cells
  11. Centrifuge 10m at 4000rcf at 4°C
  12. Resuspend pellet (GENTLY) in 50uL ice-cold water.

Electroporate linear DNA into electrocompetent cells

  1. Chill cuvettes for at least 5 minutes on ice.
  2. Set electroporator to 2.5kV. (Our electroporator is set to 600Ω)
  3. Add 0.5ug DNA to cells. Mix by pipetting. Pippet into a sterile e.p. cuvette.
    • Note: This DNA should be salt-free, so when purifying with kit, use water.
    • Note: Include enough samples for +/- PCR.
    • Note: The DNA should not sit in the cells for more than 1 minute.
  4. Make sure to dry the cuvette to prevent arcing!
  5. Place the DRY cuvette into the sample chamber. Apply the pulse by pushing the pulse button twice. Remove the cuvette.
    • Note: If you hear a popping sound, this means that the sample has arced. This could either be (1) too much salt in your sample or (2) a wet cuvette.
  6. Immediately add 1mL of room-temp SOC or LB and transfer to a culture tube
  7. Incubate 1 hr with low shaking at 37°C. (Not 30°C...you don't need to keep pKD46 around anymore)
  8. Plate out cells on LB+antibiotic. (Chl for pKD3, Kan for pKD4) Grow 24hr at 37°C.

HUGE HINTS, MY FRIEND!

  • When you plate out the cells, use super-dooper-low antibiotics (5ug/mL). You've just shot your cells with a high voltage, and now their only way to survive the sting of antibiotics is to do this complicated recombination with foreign proteins...give your cells a break...low antibiotics are the trick!
  • See "Use of the lambda Red recombinase system to produce recombinant prophages carrying antibiotic resistance genes" by Maite Muniesa in BMC Molecular Biology for more hints.
  • Keep your electroporation cells o/n in more LB at 37degC just in case they take a bit longer to survive.

PCR verify deletion

Do colony PCR with select primers to verify that the Antibiotic resistance and FLP sites are present.

  1. Pick colonies
    1. Pick colonies with a pipette tip and resuspend in 20 μl of cold ddH2O by pipetting up and down
    2. Pipette 3μl onto an index plate with appropriate antibiotic for use later if colony is good.
    3. Grow index plate at 37°C o/n.
  2. Make master mix:..............20 μl/rxn
    1. 10x PCR buffer........5
    2. 10mM dNTPs............0.6
    3. 50mM Mg2SO4.........0.4
    4. 10x enhancer..........6
    5. ddH2O....................3
    • Note: mix together {n+1} volumes of each substrate, where n=the number of reactions you will be doing.
    • Note: these volumes are for 100uL reactions. Adjust if using lower volumes.
  3. Make 10μM primer mix:
    1. Mix 2μL of both primers (100μM stock) into 18μL ddH2O.
    2. If you need more than 20μL of primer, adjust volumes. (1μL of each per total 10μL mix)
  4. For each 20 μl reaction, mix together in PCR tube.
    1. 15μL Master Mix
    2. 2.0μL Colony suspension (template)
    3. 2.0μL Primer mix (10μM each primer)
    4. 1.0μL Pfx Platinum DNA Pol
  5. Program cycle in PCR thermocycler with steps 2-4 repeating 34 times.
    1. 94°C at 5:00 (m:s)
    2. 94°C at 0:15
    3. 55°C at 0:30
    4. 68°C at 2:00
    5. 68°C at 7:00
    6. 4°C at ∞


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