Team:Kyoto/Protocols

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Contents

Index


Basic

Media

LB Media

  1. Wash a graduated cylinder with MilliQ.
  2. Add the following to about 180ml of MilliQ in the graduated cylinder:
    Bacto-yeast extract
    1.0g (0.5w/v%)
    Tryptone
    2.0g (1.0w/v%)
    NaCl
    2.0g (1.0w/v%)
    1N NaOH
    200µl
  3. Seal the graduated cylinder by a Parafilm.
  4. Dissolve the mixture by inverting the graduated cylinder.
  5. Adjust volume to 200ml by adding more MilliQ.
  6. Add the media solution to a 200ml Erlenmeyer flask.
  7. (To prepare solid media, add 2.4g (1.2w/v%) of agar to the flask.)
  8. Wrap the tops of the flasks with aluminum foil.
  9. Place a small piece of auto clave tape on one of the flasks.
  10. Autoclave the media on a liquids.
  11. Store at room temperature.
  12. To pour plates, melt the solid media in the microwave, then place flask in water bath to bring media to 50℃.
  13. Add 200µl of antibiotic
    Ampicillin
    100µg/ml
    Kanamycin
    50µg/ml
  14. (Add 0.5 - 1.0w/v% Glucose for protein expression.)

Supplemented M9 Media

  1. Wash a graduated cylinder with MilliQ.
  2. Add the following to about 180ml of MilliQ in the graduated cylinder:
    Na2HPO4
    1.2g(0.6w/v%)
    KH2PO4
    0.6g(0.3w/v%)
    NaCl
    0.1g(0.05w/v%)
    NH4Cl
    0.2g(0.1w/v%)
  3. Seal the graduated cylinder by a Parafilm.
  4. Dissolve the mixture by inverting the graduated cylinder.
  5. Adjust volume to 200ml by adding more MilliQ.
  6. Add the medium solution to a 200ml Erlenmeyer flask.
  7. Wrap the tops of the flasks with aluminum foil.
  8. Place a small piece of auto clave tape on one of the flasks.
  9. Autoclave the media on a liquids.
  10. Cool at room temperature.
  11. When it become as cool as you can hold it,Add the following to it:
    MgSO4
    1.0mM(final cocentration)
    CaCl2
    0.1mM(final concentration)
    thiamine hydrochloride
    0.001%(final concentration)
    casamino acids
    0.2w/v%
  12. Add 200µl of antibiotic:
    Ampicillin
    100µg/ml
    Kanamycin
    50µg/ml
  13. Add 0.4w/v% Glucose.

Transformation

  1. Unfreeze conpitent cells on ice.
  2. Dry a plate by letting the plate upside down and partly open in incubator.
  3. Add 1µl DNA solution and 20µl the compitent cells to 1.5ml tube, let stand for 30min on ice. If few colony is observed, increase the amount of the compitent cells or DNA, but make the amount of DNA not to get over that of the compitent cells.
  4. Heatshock for 60s at 42℃.
  5. Let stand for 2min on ice.
  6. Cµlture for 1h in precµlture medium (LB or SOC medium), and plate by using spreader. Do not heat spreader too much because e.coli will dead for heat.

Miniprep

  1. Use QIAprep Spin Miniprep Kit Cat. No. 27104 by QIAGEN
  2. Pick a single colony from a freshly streaked selective plate and inoculate a culture of about 3ml LB medium containing the appropriate selective antibiotic.
  3. Incubate at 170rpm for 8h at 37℃ with vigorous shaking.
  4. Transfer a half of the culture to a tube.
  5. Harvest the bacterial cells by centrifugation at 14,000 x g for 1min at 4℃. Remove the medium by decanting.
  6. Transfer the half of the culture to same tube and harvest as same. Remove the medium by pippetting.
  7. Resuspend pelleted bacterial cells in 250µl Buffer P1 and mix thoroughly by pippeting.
  8. Add 250µl Buffer P2 and mix thoroughly by inverting the tube gently 4-6 times.
  9. Add 350µl Buffer N3 and mix immediately and thoroughly by inverting the tube 4-6 times.
  10. Centrifuge for 10min at 14,000 x g at 4℃.
  11. Apply the supernatants from step 10 to the QIAprep spin column by pipetting.
  12. Centrifuge for 10s in a table-top microcentrifuge. Discard the flow-through.
  13. Wash the QIAprep spin column by adding 0.5ml Buffer PB and centrifuging for 10s in a table-top microcentrifuge. Discard the flow-through.
  14. Wash QIAprep spin column by adding 0.65ml Buffer PeE and centrifuging fo 10s in a table-top microcentrifuge.
  15. Discard the flow-through, and centrifuge for and additional 1min to remove residual wash buffer.
  16. Place the QIAprep column in a clean tube. To elute DNA, add 50µl water to the center of each QIAprep spin column, let stand for 1min, and centrifuge for 1min.
  17. Discard the QIAprep spin column.
  18. Measure the concentration of DNA by using eppendorf BioPhotometer plus.
  19. Restriction Digestion.
  20. Agarose Gel Electrophoresis for Confirmation.

Restriction Digestion

  1. Mix the following.
    Sample
    2µl
    10xBuffer
    1µl
    MilliQ
    6µl
    Enzyme 1
    0.5µl
    Enzyme 2
    0.5µl
  2. Let stand for 2h at 37℃

PCR

Standard PCR

  1. Dilute template DNA. If the concentration of DNA is 2-100ng/µl, transfer 1µl to a clean tube and add 99µl MilliQ.
  2. Dilute Primer. If the concentration of Primer is Xµmol/l, dilute primer X timers and transfer 1µl to a clean tube and add 99µl MilliQ.
  3. Mix the following.
    1. For use of KOD plus ver2:
      25mmol/l MgSO4
      3µl
      2mmol/l dNTPs
      5µl
      10xBuffer for KOD plus ver.2
      5µl
      Template DNA
      5µl
      Primer Forward (10µmol/l)
      1.5µl
      Primer Reverse (10µmol/l)
      1.5µl
      KOD plus ver.2
      1µl
      MilliQ
      28µl
      Total
      50µl
    2. For use of KOD FX:
      2mmol/l dNTPs
      10µl
      2xBuffer for KOD plus ver.2
      25µl
      Template DNA
      5µl
      Primer Forward (10µmol/l)
      1.5µl
      Primer Reverse (10µmol/l)
      1.5µl
      KOD FX
      1µl
      MilliQ
      6µl
      Total
      50µl
  4. (If amplification is not succeeded, try at 4.5 or 6.0µl 25mmol/l MgSO4.)
  5. Let stand for 2min at 94℃.
  6. 25-40 cycles for 10s at 98℃, for 30s at Tm-5℃, and for 1min (1min for 1kb) at 68℃ (Tm is temparature at which primer will dissolve).
  7. At 15℃ forever.
  8. Agarose Gel Electrophoresis for confirmation.

Screening PCR

  1. Mix the following (Do on PCR Bench).
    10x PCR buffer (TAKARA)
    40µl
    2.5mmol/l dNTP
    8µl
    Primer-1 (10pmol/µl)
    8µl
    Primer-2 (10pmol/µl)
    8µl
    Ex Taq HS (TAKARA)
    1.6µl
    MilliQ 
    334µl (to total 400µl)
  2. Dispense 25µl to 15 tubes.
  3. Pick a single colony and transfer it to each tubes.
  4. Suspend the colony.
  5. Let stand for 10min at 90℃.
  6. 35 cycles for 30s at 94℃, for 30s 55℃, and for 1min at 72℃.
  7. Let stand for 4min at 72℃.
  8. Add 5ml Loading Buffer to the tubes.
  9. Agalose Gel Electrophoresis for confirmation.
  10. Negative Control: Use nothing.
  11. Positive Control: Use a colony that will yield a product with this primers.

Mutagenesis (Point mutation, Deletion, Insertion)

  1. Mix the following.
    10xBuffer
    5µl
    2mmol/l dNTP
    5µl
    Primer Forward (10pmol/µl)
    1.5µl
    Primer Reverse (10pmol/µl)
    1.5µl
    Template Plasmid (50ng/µl)
    1µl
    KOD plus ver.2
    1µl
    MilliQ
    35µl
    Total
    50µl
  2. Prepare control: instead of KOD plus ver.2, add 1µl MilliQ.
  3. Let stand for 2min at 94℃.
  4. Xcycles (1cycle for 1kb) for 10s at 98℃ and for Ymin (1min for 1kb) at 68℃.
  5. Hold at 4℃.
  6. Take 25µl of the solutions into fresh tubes.
  7. Add 1µl DpnI (10U/µl).
  8. Let stand for 1h at 37℃.
  9. Agarose gel electrophoresis, using 5µl of the solution for confirmation.
  10. Mix the following.
    Sample
    2µl
    Ligation high
    5µl
    T4 Polynucleotide Kinase (5U/µl)
    1µl
    MilliQ
    7µl
    Total
    15µl
  11. Let stand for 1h at 16℃.
  12. Transformation, using 10µl of the solution.

PCR Purification

  1. Use QIAquick PCR Purification Kit Cat. No. 28104 by QIAGEN
  2. Add BufferPB about 5 times as much as the product of PCR.
  3. Apply the solution to the column.
  4. Centrifuge for 1 min at 1300 rpm. Discard the flow-through. If the amount of the sample is much, repeat this step by same column.
  5. Add 750 µl BufferPE and let stand for 2-3 min. If the solution overflows, we decrease the amount of BufferPE.
  6. Centrifuge for 1 min and Discard the through.
  7. Centrifuge for additional 1 min to remove residual buffer.
  8. Place the column in a clean tube.
  9. Add 10 µl BufferEB or H20 to the center of each column, let stand for 1 min, and repeat this step.
  10. Centrifuge for 1 min at 13000 rpm.
  11. Discard the column.

Electrophoresis

  1. Prepare 200ml of a 1.0% agarose solution:
  2. Measure 2.0g agarose into a beaker.
  3. Add 200ml 1xTAE buffer.
  4. Wrap the top of the beaker with plastic wrap.
  5. Punch a hole through the wrap with a pipette tip (To let out steam).
  6. Dissolve the agarose by heating in microwave and swirling without boiling.
  7. Allow the agarose to cool.
  8. Pour the agarose solution into a gel tray on a gel maker.
  9. If there is air bubbles, pushing them with a pipette tip.
  10. Place comb in the maker.
  11. Cover the maker with a plastic wrap.
  12. Let stand for about 45min.
  13. Remove the comb carefully.
  14. Store in the Tupperware in the refrigerator.
  15. Place the tray in electrophoresis chamber.
  16. Cover the tray with 1xTAE buffer.
  17. To prepare samples for electrophoresi, add 1µl of 6x Loading Buffer for every 5µl of DNA solution and mix well.
  18. Load 6µl of the DNA solution per well.
  19. Electrophorese at 100volts for about 30min until Loading Buffer have migrated approximately three-quaters of the gel.
  20. Stain the gel in 0.5µg/ml ethidium bromide for 20-30min.
  21. Rinse the gel with MilliQ.
  22. Place a plastic wrap on the transilluminator in the cabinet of Printgraph.
  23. Place the gel on the transilluminator.
  24. Turn on the transilluminator and confirm the position of the gel.
  25. Shoot the picture.
  26. Turn off the transilluminator.
  27. Dispose of the gel.

Gel Extraction

  1. Use QIAquick Gel Extraction Kit Cat. No. 28704 by QIAGEN
  2. Transfer cutted gel to a tube.
  3. Add BufferQG about 3 times as much as the volume of the gel.
  4. Stand the gel for 10 min at 50℃ to Dissolve. If hard to dissolve, sometimes vortex.
  5. Confirm the color of the solution. If the color is orange or purple, add about 10µl 3M sodium acetate to yellow.
  6. Add isopropanol as much as the gel and mix.
  7. Apply the solution to the column.
  8. Centrifuge for 1 min at 1300 rpm. Discard the flow-through. If the amount of the sample is much, repeat this step by same column.
  9. Add 500 µl BufferQG and centrifuge for 1 min. Discard the through.
  10. Add 750 µl BufferPE and let stand for 2-3 min. If the solution overflows, we decrease the amount of BufferPE.
  11. Centrifuge for 1 min and Discard the through.
  12. Centrifuge for additional 1 min to remove residual buffer.
  13. Place the column in a clean tube.
  14. Add 10 µl BufferEB or H20 to the center of each column, let stand for 1 min, and repeat this step.
  15. Centrifuge for 1 min at 13000 rpm.
  16. Discard the column.

Ligation

  1. Create a Mixture (the vector and the insert at 1 : 5-10 molecµle) and a Control (only the vector).
  2. Add Ligation High to create a solution.
  3. Incubate at 16℃ for 30 min. If the colonies of E.coli transformed with the Control,

Sequence

  1. Use Big Dye Terminator 3.1(ABI)
  2. Mix the following
    5xBuffer
    2µl
    Primer (3.2pmol/µl)
    1µl
    Template Plasmid 
    200ng
    Big Dye Terminator 3.1
    0.5µl
    MilliQ
    up to 10µl
  3. Let stand for 1min at 96℃.
  4. 35 cycles for 5s at 98℃, for 5s 50℃, and for 2.5min at 68℃.
  5. Add 25µl 100% ethanol and 1ul NAOAC

Ethanol Precipitation

Use Ethachinmate(NIPPON GENE、312-01791)

  1. Add 3.3 μl of 3mol/l Sodium Acetate (attached with Ethachinmate) into 100µl of DNA solution.
  2. Add 1µl of Ethachinmate
  3. Vortex
  4. Add ethanol, 200~250µl
  5. Vortex.
  6. Centrifuge at 12000 x g for 5 minutes
  7. Precipitation


Measurement

Promoter Activity (from 24 August to 15 September)

  1. 5mL the supplemented M9 medium is poured to each test tube.
  2. 100μL 0.025M IPTG aq is added to each test tube and mixed well.
  3. A colony on the plate of E.coli is picked out and put into the test tube.
  4. The culture is grown at 37℃ for 16h.
  5. OD600 of the overnight culture is measured.
  6. (25/OD600)μL culture is poured to 1.5mL tube.
  7. The tube is centrifuged at 14,000rpm and at 4℃ for 2minutes.
  8. The supernatant is discarded.
  9. 1mL the supplemented M9 medium is poured to the tube and mixed well to dissolve pellet.
  10. Procedure 7 and 8 is done again.
  11. Procedure 9 and 10 is done again.
  12. 25mL the supplemented M9 medium is poured to test tube.
  13. Proper amount of 0.025M IPTG aq is added to the test tube to make the medium including IPTG concentration you wish.
  14. 1mL the medium including IPTG is poured to the pellet in the tube from the test tube. Pellet is dissolved.
  15. The all culture in the tube is poured to 24mL the medium in the test tube and 25mL the culture including IPTG concentration you wish is made. OD600 of this culture is 1.0×103.
  16. 25mL the culture is divided to 5 test tubes by 5mL to measure OD600 and to collect samples of the measurement of GFP fluorescence at 5 different points.
  17. These test tubes were incubated at 37℃.
  18. OD600 of the culture was measured after 4h, 8h, 12h, 16h and 20h.
  19. 1mL of the culture is pour to 1.5mL tube at the times.
  20. The 1.5mL tube is centrifuged at 14,000rpm and at 4℃ for 2minutes.
  21. The supernatant is discarded.
  22. The pellet is frozen and stored in a fridge as sample for measurement of GFP fluorescence.
  23. GFP fluorescence is measured.

Promoter Activity (from 16 September to 27 September)

  1. 5mL the supplemented M9 medium is poured to each falcon tube.
  2. Proper amount of 0.025M IPTG aq is added to each test tube and mixed well to make the medium including IPTG concentration which you hope.
  3. A colony on the plate of E.coli is picked out and put into three falcon tubes
  4. The culture is grown at 37℃ for 16h.
  5. OD600 of the overnight culture is measured.
  6. 5mL the supplemented M9 medium is poured to each new falcon tube These tubes are pre-warmed at 37℃.
  7. 50μL the overnight culture is poured to 5mL the fresh medium.
  8. The diluted culture is grown at 37℃.
  9. OD600 of the culture is measured after 2h, 2.5h, 3h, 3.5h and 4h.
  10. 1mL of the culture is pour to 1.5mL tube after 3h and 3.5h.
  11. The 1.5mL tube is centrifuged at 14,000rpm and at 4℃ for 2minutes.
  12. The supernatant is discarded.
  13. The pellet is frozen and stored in a fridge as sample for measurement of GFP fluorescence.
  14. GFP fluorescence is measured.

GFP Fluorescence

  1. 75μL the cell lysis reagent is added to the pellets in the 1.5mL tube and mixed well. The pellet is dissolved.
  2. The tube is centrifuged at 15,000rpm and at 4℃ for 1minutes.
  3. 50μL supernatant is took out and added to each well of a plate.
  4. 50μL the cell lysis reagent is added to a well to correct the back.
  5. The plate is set in the plate reader, Wallac 1420 Multilabel Counter, and GFP fluorescence of the sample was measured (Ex/Em= 485/535 nm, 1sec).


Lysis

Measurement of the actitvity of inducible lytic system

  1. Pour 5mL of supplemented M9 medium to a falcon tube.
  2. Pick out a colony on the plate of E.coli and put into the falcon tube.
  3. Grow it at 37℃ for 16h.
  4. Measure A550 of the overnight culture.
  5. Dilute it with pre-warmed supplemented M9 medium to A550 be 0.20.
  6. Pour 5mL of the adjusted culture to a falcon tube.
  7. Grow the diluted culture at 37℃.
  8. Measure A550 of the culture every 30 min until 4h.
  9. At the point of 30 min, add proper amount of IPTG to the culture.