Agarose Gel
Materials
- 1X TAE
- Agarose
- Gel Red
- DNA samples
- 6X loading dye
- Nuclease-free water
Procedure
- Prepare 1.2% agarose gel for small fragments and 3% agarose gel for large fragments
- Mix 50 mL 1X TAE and 0.6 g (1.2%) or 1.5 g (3%) agarose
- Melt in microwave until agarose has melted (about 50 seconds)
- Add 1.3 μL (1.2%) or 1.5 μL (3%) Gel Red
- Pour solution into agarose gel mold with comb
- Let set for 20 minutes or until solid
- Place gel in 1X TAE and remove comb
- Load samples of 200 ng (or 2 μL) DNA mixed with 2 μL 6X loading dye and nuclease-free water up to 12 μL
- Run gel at 100-120 Volts for 40-50 minutes (1.2%) or 80 Volts for 2 hours (3%)
- Take a picture of the gel at the UV detector
Competent Cell Preparation Based on Open Wet Ware Protocol
Materials
- Bacterial overnight liquid culture
- Lysogeny broth (LB) medium
- CaCl2 solution, ice cold: 60 mM CaCl2, 15% glycerol, 10 mM PIPES, pH 7, filter sterilize and store at room temperature
Procedure
- Subculture overnight culture 1:100 in LB medium
- Incubate at 37°C with shaking until culture reaches an OD600 of 0.375
- Aliquot 20 mL if the culture into chilled 50 mL tubes
- Leave tubes on ice for 5 – 10 minutes
- Centrifuge cells at 1600 g for 7 minutes at 4°C
- Discard supernatant and resuspend pellet in 4 mL ice cold CaCl2 solution
- Centrifuge cells at 1100 g for 5 minutes at 4°C
- Discard supernatant and resuspend pellet in 4 mL ice cold CaCl2 solution
- Keep on ice for 30 minutes
- Centrifuge cells at 1100 g for 5 minutes at 4°C
- Discard supernatant and resuspend pellet in 800 μL ice cold CaCl2 solution
- Aliquot 100 μL of this suspension into microcentrifuge tubes
- Freeze in liquid nitrogen and store at -80°C
Dephosphorylation of 5'-ends of DNA using Antarctic Phosphatase Based on NEB Protocol
Materials
- 1-5 µg cut DNA
- 10X Antarctic Phosphatase Reaction Buffer
- Antarctic Phosphatase
Procedure
- Add 1/10 volume of 10X Antarctic Phosphatase Reaction Buffer to 1-5 µg of DNA cut with any restriction endonuclease in any buffer.
- Add 1 µl of Antarctic Phosphatase (5 units) and mix
- Incubate for 15 minutes at 37°C for 5´ extensions or blunt-ends, 60 minutes for 3´ extensions
- Heat inactivate (or as required to inactivate the restriction enzyme) for 5 minutes at 70°C
- Proceed with ligation
Gibson Assembly Based on NEB Gibson Assembly Protocol
Materials
- DNA fragments
- 2X Gibson Assembly Mater Mix (NEB)
- 2X NEBuilder Positive Control (NEB)
- Deionized water
Procedure
- Set up following reactions on ice, adding Gibson Assembly Master Mix last:
Component |
2 – 3 Fragments Assembly |
4 – 6 Fragments Assembly |
Positive Control |
Total Amount of Fragments |
0.02 – 0.5 pmols |
0.2 – 1 pmols |
10 μL |
2X Gibson Assembly Master Mix |
10 μL |
10 μL |
10 μL |
Deionized water |
to 20 μL |
to 20 μL |
0 μL |
Optimized efficiency for 50 – 100 ng of vectors and 2 – 3 fold of excess inserts
- Incubate samples at 50°C for 15 minutes (2 – 3 fragments) or for 60 minutes (4 – 6 fragments)
- Store samples on ice or at -20°C until transformation
- Transform competent cells following the Transformation Protocol
Glycerol Stock
Materials
- 50% Glycerol
- Bacterial overnight liquid culture
- Liquid Nitrogen
Procedure
- Mix 0.5 mL 50% glycerol and 0.5 mL bacterial culture
- Freeze in liquid nitrogen and store at -80°C
Lysogeny Broth (LB) Medium
Materials
- Tryptone
- Yeast extract
- NaCl
- Deionized water
- NaOH
- If necessary: antibiotics
Procedure (for 1 L)
- Dissolve 10 g tryptone, 5 g yeast extract and 10 g NaCl in 950 mL deionized water
- Adjust pH to 7 using 1 M NaOH and bring volume to 1 L
- Autoclave
- If necessary: let medium cool to 55°C and add atibiotic
- Store at room temperature
Lysogeny Broth (LB) Agar Plates
Materials
- Tryptone
- Yeast extract
- NaCl
- Deionized water
- NaOH
- Agar
- If necessary: antibiotics
- Petri dishes
Procedure (for 1 L, ie. about 50 plates)
- Dissolve 10 g tryptone, 5 g yeast extract and 10 g NaCl in 950 mL deionized water
- Adjust pH to 7 using 1 M NaOH and bring volume to 1 L
- Add 15 g agar
- Autoclave
- If necessary: let medium cool to 55°C and add atibiotic
- Pour into petri dishes (about 20 mL per dish) and let set
- Invert and store at 4°C
Miniprep With QIAprep Spin Miniprep Kit (QIAGEN)
Materials
- Bacterial overnight liquid cultures (1 - 5 mL)
- QIAprep Spin Miniprep Kit
Procedure
- Pellet 1 -5 mL bacterial culture by centrifugation at more than 8000 rpm for 3 minutes
- Resuspend pelleted bacterial cells in 250 μL P1 buffer and transfer to a microcentrifuge tube
- Add 250 μL P2 buffer and mix by inverting tube 4 – 6 times
- Add 350 μL N3 buffer and mix by inverting tube 4- 6 times
- Centrifuge for 10 min at 13000 rpm
- Apply supernatant to the QIAprep spin column by pipetting, centrifuge for 30 – 60 seconds and discard flow-through
- Wash the QIAprep spin column by adding 0.5 mL PB buffer, centrifuge for 30 – 60 seconds and discard flow-through
- Wash the QIAprep spin column by adding 0.75 mL PE buffer, centrifuge for 30 – 60 seconds and discard flow-through
- Centrifuge for 1 minute to remove residual wash buffer
- Elute DNA by placing QIAprep column in a clean 1.5 mL microcentrifuge tube and adding 50 μL EB buffer or water (or less for higher concentration). Let stand for 1 minute and centrifuge for 1 minute
Comments
With low copy plasmid it is often difficult to obtain high concentrations (needed for sequencing). In these cases it's possible to proceed as follows: culture bacteria in 5 x 7mL tubes of LB medium and perform the miniprep for each tube separately until step 9. Then elute DNA by applying two times step 10 to each tube with the same 50µl of EB buffer.
Polymerase Chain Reaction (PCR)
Colony PCR
Materials
- Materials for Taq PCR (except template plasmid DNA)
- Petri dish with transformed colonies
Procedure
- Prepare 25 μL reactions as in Taq PCR Protocol without template DNA
- With a sterile tip, under the flame, scrape part of a single colony and add to PCR tubes
- Mix by pipetting up and down or flicking the reactions
- Put tubes in thermocycler with cycling conditions as described in Taq PCR Protocol with a longer initial denaturation (2 - 5 minutes)
Phusion PCR Based on NEB Phusion PCR Protocol
Materials
- 5X Phusion HF or GC Buffer
- dNTPs
- Forward and Reverse Primers
- Template plasmid DNA
- Phusion DNA polymerase
- Nuclease-free Water
Procedure
- Prepare following reaction in 0.5 mL PCR tubes on ice, adding polymerase last:
Component |
20 μL reaction |
50 μL reaction |
5X Phusion HF or GC Buffer |
4 μL |
10 μL |
10 mM dNTPs |
0.4 μL |
1 μL |
10 μM Forward Primer |
1 μL |
2.5 μL |
10 μM Reverse Primer |
1 μL |
2.5 μL |
Template plasmid DNA |
1 pg – 10 ng |
1 pg – 10 ng |
Phusion DNA Polymerase |
0.2 μL |
0.5 μL |
Nuclease-free Water |
to 20 μL |
to 50 μL |
Usually 100 pg – 1 ng of template DNA is sufficient
- Mix by pipetting up and down or flicking the reactions
- Put tubes in thermocycler (with a pre-heated lid) with following cycling conditions:
Step |
|
Temperature |
Time |
Initial Denaturation |
|
98°C |
30 seconds |
25 – 35 cycles |
Denaturation |
98°C |
5 - 10 seconds |
|
Annealing |
45 – 72°C |
10 – 30 seconds |
|
Extension |
72°C |
15 -30 seconds per kb |
Final Extension |
|
72°C |
5 -10 minutes |
Hold |
|
4°C |
|
Taq PCR Based on NEB Taq PCR Protocol
Materials
- 10X Standard Taq Reaction Buffer
- dNTPs
- Forward and Reverse Primers
- Template plasmid DNA
- Taq DNA polymerase
- Nuclease-free Water
Procedure
- Prepare following reaction in 0.5 mL PCR tubes on ice, adding polymerase last:
Component |
25 μL reaction |
50 μL reaction |
10X Standard Taq Reaction Buffer |
2.5 μL |
5 μL |
10 mM dNTPs |
0.5 μL |
1 μL |
10 μM Forward Primer |
0.5 μL |
1 μL |
10 μM Reverse Primer |
0.5 μL |
1 μL |
Template plasmid DNA |
1 pg – 1 ng |
1 pg – 1 ng |
Taq DNA Polymerase |
0.125 μL |
0.25 μL |
Nuclease-free Water |
to 25 μL |
to 50 μL |
Usually 100 pg – 1 ng of template DNA is sufficient
- Mix by pipetting up and down or flicking the reactions
- Put tubes in thermocycler (with a pre-heated lid) with following cycling conditions:
Step |
|
Temperature |
Time |
Initial Denaturation |
|
95°C |
30 seconds |
25 – 35 cycles |
Denaturation |
95°C |
15 – 30 seconds |
|
Annealing |
45 – 68°C |
15 – 60 seconds |
|
Extension |
68°C |
1 minutes per kb |
Final Extension |
|
68°C |
5 minutes |
Hold |
|
4°C |
|
Q5 PCR Based on NEB Q5 PCR Protocol
Materials
- 5X Q5 Reaction Buffer
- dNTPs 10µM
- Forward and Reverse Primers
- Template plasmid DNA
- Q5 High Fidelity DNA polymerase
- Nuclease-free Water
Procedure
- Prepare following reaction in 0.5 mL PCR tubes on ice, adding polymerase last:
Component |
25 μL reaction |
50 μL reaction |
5X Q5 Reaction Buffer |
5 μL |
10 μL |
10 mM dNTPs |
0.5 μL |
1 μL |
10 μM Forward Primer |
1.25 μL |
2.5 μL |
10 μM Reverse Primer |
1.25 μL |
2.5 μL |
Template plasmid DNA |
1 < 1,000 ng |
1 < 1,000 ng |
Q5 DNA Polymerase |
0.25 μL |
0.5 μL |
Nuclease-free Water |
to 25 μL |
to 50 μL |
Usually 100 pg – 1 ng of template DNA is sufficient
- Mix by pipetting up and down or flicking the reactions
- Put tubes in thermocycler (with a pre-heated lid) with following cycling conditions:
Step |
|
Temperature |
Time |
Initial Denaturation |
|
98°C |
30 seconds |
25 – 35 cycles |
Denaturation |
98°C |
5 – 10 seconds |
|
Annealing |
50 – 72°C |
10 – 30 seconds |
|
Extension |
72°C |
20 - 30 seconds per kb |
Final Extension |
|
72°C |
2 minutes |
Hold |
|
4°C |
|
PCR Product Purification With QIAquick PCR Purification Kit (QIAGEN)
Materials
- PCR products
- QIAquick PCR Purification Kit
Procedure
- Add 5 volumes PB buffer to 1 volume of PCR product and mix
- Place QIAquick column in 2 ml collection tube
- Apply samples to QIAquick column and centrifuge for 30 – 60 seconds, discard flow-through
- Wash by adding 750 μL PE buffer to QIAquick column and centrifuge fo 30 – 60 seconds, discard flow-through
- Centrifuge QIAquick column for 1 minutes to remove residual wash buffer
- Elute DNA by adding 30 or 50 μL EB buffer or water to the center of the QIAquick column. Let stand for 1 minutes and centrifuge for 1 minute
Restriction Digest"Typical" Restriction Digest based on NEB Protocol
Materials
- Restriction Enzyme(s)
- DNA
- 10X NEBuffer (Appropriate buffer for used enzyme)
- Water
Procedure
- Prepare following reaction in 0.5 mL PCR tubes, adding enzyme(s) last:
Component |
20 μL reaction |
50 μL reaction |
Restriction enzyme(s) |
1 μL (for each enzyme) |
1 μL (for each enzyme) |
DNA |
100 ng - 1 μg |
100 ng - 1 μg |
10X NEBuffer |
2 μL |
5 μL |
Water |
to 20 μL |
to 50 μL |
20 μL reactions are sufficient for restriction enzyme analysis, larger volumes are usefull if product is used for cloning
- Incubate at temperature and for duration appropriate for used enzyme (typically 37°C for 15 minutes or 1 hour)
- Optional: Inactivate enzyme by incubating reaction at temperature and for duration appropriate for used enzyme (typically 65°C for 20 minutes)
S. Cerevisiae Specific Protocols
Amino acid solution
Materials
- Histidine-Hcl
- Uracil
- Leucine
- Tryptophan
Procedure
Stock concentration |
Final concentration |
Total quantity for 50 mL |
100 mM Histidine-Hcl (209 g/mol) |
20.9 g/L |
1.045 g |
20 mM Uracil (112 g/mol) |
2.24 g/L |
0.112 g |
100 mM Leucine (131 g/mol) |
13.1 g/L |
0.655 g |
40 mM Tryptophan (204 g/mol) |
8.16 g/L |
0.408 g |
- Filter and sterilize solutions
- Add 8 mL per liter of selective medium or spread 500 μL on a selective plate
PEG/LiAc Solution
Materials
- 50% PEG (Polyethylene glycol) prepared with sterile deionized water
- 10X TE buffer: 0.1 M Tris-Hcl, 10 mM EDTA, ph 7.5, autoclaved
- 10X LiAc: 1 M lithium acetate, pH 7.5 adjusted with dilute acetic acid, autoclaved
Procedure
- Prepare PEG/LiAc solution as follows:
Stock concentration |
Final concentration |
Total quantity for 10 mL solution |
50% PEG |
40% PEG |
8 mL |
10X TE buffer |
1X TE buffer |
1 mL |
10X LiAc |
1X LiAc |
1 mL |
Sd Medium
Materials
- Amino Acid Powder
- Yeast Nitrogen Base
- Ammonium Sulphate
- Adenine Sulphate
- Water
- NaOH
- Agar
- Glucose
Procedure
- Place stirrer bar in 2 L Erlenmeyer
- Add 2.6 g amino acid powder, 3.4 g yeast nitrogen base, 10 g ammonium sulphate, 1 g adenine sulphate and 950 mL water
- Adjust pH to 5.9 by adding a few drops of 10 M NaOH
- In an other Erlenmeyer, add 35 g agar and 900 mL water
- Autoclave both bottles
- Transfer the content of first bottle to the agar-containing bottle
- Cool to 55°C
- Add 100 ml 40% glucose and 16 ml of the required amino acids
- Pour plates
Site-directed mutagenesisBased on NEB Q5 Site-directed Mutagensis Kit Protocol
Materials
- Q5 Hot Start High-Fidelity 2X Master Mix (NEB)
- Forward and reverse primers
- Template DNA
- Nuclease-free water
Procedure
- Prepare following reaction in 0.5 mL PCR tubes on ice, adding Mater Mix last:
Component |
25 μL reaction |
Q5 Hot Start High-Fidelity 2X Master Mix |
12.5 μL |
10 μM Forward Primer |
1.25 μL |
10 μM Reverse Primer |
1.25 μL |
Template DNA (1-25 ng/μL) |
1 μL |
Nuclease-free Water |
9 μL |
- Put tubes in thermocycler (with a pre-heated lid) with following cycling conditions:
Step |
|
Temperature |
Time |
Initial Denaturation |
|
98°C |
30 seconds |
25 cycles |
Denaturation |
98°C |
10 seconds |
|
Annealing |
50 – 72°C |
10 – 30 seconds |
|
Extension |
72°C |
20 - 30 seconds per kb |
Final Extension |
|
72°C |
2 minutes |
Hold |
|
4°C |
|
- Assemble following reagents:
Component |
Volume |
PCR Product |
1 μL |
2X KLD Reaction Buffer |
5 μL |
10X KLD Enzyme Mix |
1 μL |
Nuclease-free Water |
3 μL |
- Mix by pipetting up and down and incubate at room temperature for 5 minutes
- Thaw completent E. coli cells on ice
- Add 5 μL of KLD mix to the tube of thawed cells. Flick tube 4-5 times to mix.
- Place mixture on ice for 30 minutes
- Heat shock at 42°C for 30 seconds
- Place on ice for 5 minutes
- Pipette 950 μL of room temperature SOC into the mixture
- Incubate at 37°C for 60 minutes with shaking
- Mix thouroughly by flicking the tube and inverting, then spread 50-100 μL on a plate with appropriate antibiotics and incubate overnight at 37°C
Rapid ligation using T4 ligase
Based on Invitrogen protocol (for cohesive ends)
Materials
- 5X ligase reaction buffer
- vector DNA
- insert DNA
- autoclaved distilled water
- T4 DNA ligase
Procedure
- In a final volume of 20 µL mix 4 µL 5X ligase reaction buffer, 3 to 30 fmol vector DNA, 9 to 90 fmol insert DNA, 1 µL T4 ligase and complete with water
- Mix gently. Centrifuge briefly to bring the contents to the bottom of the tube
- Incubate at room temperature for 5 min
- Use 2 μl of the ligation reaction to transform competent cells
Tris-Acetate-EDTA (TAE) buffer 50X
Materials
- Acetate 100%
- Tris base
- EDTA 0,5M
Procedure (1L)
- Add 100mL of 0,5M EDTA (pH 8.0)
- Add 242g of Tris base
- Add 57,1mL of glacial acetic acid (100%)
- Fill up to 1L with water (adjust pH to ~8.3)
- Send to autoclave
To prepare 1L of 1X TAE dilute 20mL of 50X TAE in 980mL of water.