Team:Lethbridge Canada/protocols

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Revision as of 20:20, 12 June 2013

Protocols:

Agarose Gel Electrophoresis

Prepare the Agarose Gel:

  1. Weigh appropriate amount of agarose into a small Erlenmeyer flask (0.3g for 30mL small 1% gel).
  2. Add desired volume of 1x TAE buffer (or 1x TBE in special cases) (30mL for small gel chamber).
  3. Weight the flask and write down its total weight.
  4. Boil it to resolve the agarose:
    • either by microwaving (without magnetic stir bar)
    • or on hot plate (with magnetic stir bar).
  5. Let it cool down while stirring to about 60°C (hand-warm).
  6. Weight again and replace lost water.
  7. Seal ends of gel plate with black wedges.
  8. Cast gel into gel plate and put in the comb, wait until solid.

Prepare Samples:

  1. Transfer about 0.3μg DNA into a microcentrifuge tube.
  2. Add 1x TAE to 5μL.
  3. Add 1μL of 6x DNA sample buffer.

Run Electrophoresis:

  1. Place gel into the big chamber in correct orientation (DNA migrates to the positive pole)
  2. Fill chamber with 1x TAE buffer (or 1x TBE), about 0.5cm above gel.
  3. Carefully remove comb from solid gel.
  4. Load the 6 μL samples into the gel slots, and load 4 μL of DNA ladder (typically 1kb ladder) in at least one gel slot.
  5. Close chamber with lid in the correct orientation (black/red).
  6. Connect cables to power supply.
  7. Run the gel with 1–5V/cm of gel length, check for dye fronts should be at about 1/3 and 2/3 of gels (about 1h) – common lab procedure: 100V for small gel.

Staining and Photo:

  1. Stain the gels for 10–20 minutes in ethidiumbromide while shaking. Attention: always wear gloves with ethidiumbromide, try not to touch the solution or the stained gel but use a kitchen spatula to handle the gel.
  2. Destain the gel for a short while in water (e.g. while transporting it to take the photo).
  3. Observe bands on UV illuminator and take a digital photo. Carfeful: strong UV light, wear glasses and lab coat to avoid “sun burn."
  4. Clean UV illuminator.
  5. Discard gel in ethidiumbromide waste.

Buffers:

50x TAE - Dilution to 4L of 1x TAE Buffer:

  • 242g Tris
  • 80ml 50x TAE buffer
  • 57.1mL acetic acid
  • fill up to 4L with MilliQ H2O
  • 100mL 0.5 M EDTA pH 8.0
  • H2O to final volume of 1L

55x TBE:

  • 54g Tris base - end concentration 90mM
  • 27.5mL boric acid - end concentration 90mM
  • 20 ml 0.5 M EDTA ph 8.0 - end concentration 1mM
  • H2O to final volume of 1L
    • Should be pH 8.3 without adjustment
    • Filter to delay precipitation

6x DNA Loading Buffer:

  • 0.25% bromphenol blue
  • 0.25% Xylencyanol
  • 60% Glycerol
  • 1% SDS
  • 20mM EDTA
  • In H2O

Gene Ruler 1kb DNA ladder (Fermentas)

1:6 Dilution
100μLDNA ladder (0.5 μg/μL)
100μL6x Loading Dye
400μMilliQ H2O

Results in 0.08333μg/μL, i.e. 0.5μg in 6μL as recommended by Fermentas

Gel Concentration to Separate Various Sizes of DNA:

Agarose in % (w/v) Optimal for Linear Double-Stranded DNA (size in kb)
0.3 5 - 60
0.6 1 - 20
0.7 0.8 - 10
0.9 0.5 - 7
1.2 0.4 - 6
1.5 0.2 - 3
2.0 0.1 - 2
3.0* optimal for 50–100bp fragments, e.g. templates for in vitro transcription

* For gels of more than 2%, use 3 parts “cheap” agarose and 1 part Top Vision Agarose, e.g. 0.9g cheap agarose + 0.3g Top Vision (not low melting) agarose for 40mL of 3.% gel

Overnight Cultures

Overnight Culture of Bacteria for Plasmid Purification:

  1. Using proper Aseptic technique, sterilely transfer 5mL of LB medium into a sterile culture tube or falcon tube.
  2. Thaw the appropriate antibiotic and pipette in the amount needed.
  3. Sterilize the inoculating loop using flame and allow cooling then carefully picking one colony from a plate or scraping some media from a glycerol stock and transferring the cells to the media by swirling the inoculating loop.
  4. Secure the lids of the vessel and incubate overnight with shaking at appropriate temp (usually 37°C)

Plasmid Purification:

  1. If a glycerol stock of the bacteria has not previously been made do so now by cutting the end off of a 1000μL tip and pipette 200μL of 100% autoclaved glycerol into a cryomicrofuge tube.
    • Glycerol is very viscus and this will take practice to transfer 200μL accurately.
    • Do not pipet from the common glycerol bottle! Always pour some glycerol into a microfuge tube and keep your stock separate
  2. Pipette 800μLo f overnight culture into the cryovial and mix by swirling the tip and carefully pipetting up and down. Be careful not to suck any media into the barrel of you pipette.
  3. Freeze the cells in liquid nitrogen and store in the -800°C freezer
  4. Transfer the remaining bacteria into a falcon tube and centrifuge at 5000XG for 7 minutes. Alternately you can pipette cells 1.5 mL at a time in a microfuge tube at max speed for 1.5 minutes.
  5. Remove the supernatant and dispose of in the bacteria waste vessel and proceed to the miniprep protocol found in the miniprep kits.

Restriction Digestion

  1. Pipet in this order into a 1.5ml microcentrifuge tube:
    1. MilliQ H2O - final total volume: 20μL
    2. 10x Buffer (corresponding to enzyme) - 2μL
    3. Plasmid DNA (volume according to concentration) 2μg(end concentration < 0.3μg/μL)
    4. Restriction enzyme - 1-2U/μg DNA
      • (Volume according to concentration stated on enzyme tube)
      • (Don’t pipet less than 0.25μL)
    5. Attention with handling restriction enzymes: take them only immediately before use out of -20°C fridge, store on ice, put back into fridge as soon as possible.
  2. Incubate at optimal for 1 hour (some enzymes need longer times E.g. SalI) (incubation at 37°C in water bath, but e.g. for SmaI 25-30°C).
  3. Take sample for agarose gel or store for short-term on ice or for long-term at -20°C.

Preparative:

  1. Parts:
    • MilliQ - 30μL
    • 10x Buffer (corresponding to enzyme) - 1/10 of final volume 3μL
    • Plasmid DNA - 0.2μg/μL, 6μg
    • Restriction enzyme - 1U/μg DNA
  2. Incubate 2 hours at 37°C
  3. Note:
    • SmaI needs to be incubated at 25-30°C (only 50% activity at 37°C)
    • SalI needs long incubation times (>4h)

Miniprep Using EZ-10 Spin Column Kits (High Copy Number Plasmid)

Procedure:

  1. Warm Elution Buffer in incubator or in water bath at 37-50°C.
  2. Add 1.5mL of the overnight culture to a 1.5mL microcentrifuge tube and centrifuge at 12000rpm for 2 minutes. Drain supernatant and repeat until all of the overnight culture is used.
  3. Add 100μL of Solution 1 to the cell pellet, mix by pipetting, let stand 1 minute.
  4. Add 200μL of Solution 2 to the mixture, mix gently by inverting the tube 4-6 times and let stand for 1 minute. Do not vortex.
  5. Add 350μL of Solution 3 and mix gently by inverting the tube 4-6 times and let stand for 1 minute.
  6. Centrifuge at 12000rpm for 5 minutes.
  7. Transfer supernatant to an EZ-10 Spin Column and centrifuge at 10000 rpm for 2 minutes.
  8. Discard the flow through in the tube. Add 500μL of Wash Solution to the column and centrifuge at 10000 rpm for 2 minutes.
  9. Repeat wash procedure in Step 7.
  10. Discard the flow though in the collection tube. Centrifuge at 10000rpm for an additional minute to remove any residual wash solution.
  11. Transfer the column to a clean, labelled 1.5 mL microcentrifuge tube. Add 50μL of Elution Buffer to the centre part of the column and incubate at room temperature for 2 minutes. Centrifuge at 10000 rpm for 2 minutes.
  12. Store purified DNA at -20°C.

Labeling:

All tubes are to be labeled with this information:

  • Name
  • Date
  • Antibiotic
  • Species
  • Strain
  • Part Number and Plasmid

Transformation of Competent Cells

  1. Thaw 20 μL of pre aliquotted cells (Dh5α or BL21 DE3) on ice. Competent cells are stored at -80°C. (Often cells are frozen as 50 μL aliquots – split under sterile conditions for 2 transformations.)
  2. Gently pipet maximum 2.0μL (better 1.8μL) of DNA into the competent cells and pipet once up and down to rinse the tip.
    • Never use more DNA than 10% of the volume of the competent cells, otherwise the cells get destroyed by osmotic shock.
  3. Mix the DNA into the cells by swirling the tip in the solution.
  4. Incubate the cells on ice for 30 minutes.
  5. Heat shock the cells in a water bath at 42°C for exactly 45 seconds.
  6. Incubate the cells on ice 1 minute.
  7. Add 250 μL of sterile media to the cells and incubate at 37°C for 1 hour with shaking (tape microcentrifuge tube in shaking incubator).
  8. Label the LB plates on the outside perimeter:
    1. Your name
    2. Date
    3. Cell strain (e.g. DH5α, BL21DE3 etc.)
    4. Plasmid
    5. Volume plated
  9. Plate 100 μL and 50 μL on pre-warmed LB plates containing the appropriate antibiotic. For ligations and mutagenesis: plate all 250 μL on (1 or) 2 plate.
  10. Leave plate for 10-15 minutes to soak the cell suspension into the agar.
  11. Flip plate over (agar on top).
  12. Incubate the plates in the 37°C oven overnight.
  13. Keep the remaining solution in the 4°C fridge overnight until transformation has been confirmed.