Parts
Materials:
5 ml LB broth
5 μl antibiotic
Loops
12 ml culture tube
Methods:
Overnight cultures were prepared under sterile conditions using a Bunsen burner
- Add 5 ml liquid LB media into 12 ml culture tubes
- Add 5 μl of appropriate antibiotic into the broth
- Using the loop, pick a single colony and inoculate the cultures by dipping the loop into the LB broth
- Seal the tubes and incubate overnight at 37°C shaking at 200-250 rpm
Materials:
2x Phusion Mastermix
10 µM forward primer
10 µM forward primer
PCR tube
Sterile water
Plasmid DNA
Methods:
For a 25 µL reaction
- In a PCR tube on ice, combine 1-10 ng of plasmid DNA, 1.25 µL of 10 µM forward primer, 1.25 µL of 10 µM reverse primer to a PCR tube on ice, 12.5 µL of 2x Phusion Mastermix, and sterile water up to 25 µL.
Note: It is important to add Phusion Master Mix last in order to prevent primer degradation caused by the 3 ́→ 5 ́ exonuclease activity - Gently mix the reaction
- If necessary, collect the liquid to the bottom of the PCR tube by spinning briefly
- Transfer the PCR tube from ice to a PCR machine to begin thermocycling
For a 50 µL reaction
- In a PCR tube on ice, combine 1-10 ng of plasmid DNA, 2.50 µL of 10 µM forward primer, 2.50 µL of 10 µM reverse primer to a PCR tube on ice, 25 µL of 2x Phusion Mastermix, and sterile water up to 50 µL.
Note: It is important to add Phusion Master Mix last in order to prevent primer degradation caused by the 3 ́→ 5 ́ exonuclease activity - Gently mix the reaction
- If necessary, collect the liquid to the bottom of the PCR tube by spinning briefly
- Transfer the PCR tube from ice to a PCR machine preheated to 98°C to begin thermocycling
Thermocycling
The PCR machine should be set to run the following steps:
Step | Temperature (°C) | Time |
---|---|---|
Initial denaturation | 98 | 30 seconds |
25-35 cycles | 98 (denaturation) 45-72 (annealing) see Note 1 72 (extension) |
5-10 seconds 10-30 seconds 15-30 seconds per kb |
Final extension | 72 | 2-5 minutes |
Hold | 4 | Indefinitely |
Note 1: Use the NEB Tm calculator should be used to determine the annealing temperature when using Phusion: http://tmcalculator.neb.com/#!/
Materials:
Sterile Water
25 µL RedTaq mastermix
1 E. coli colony
2.5 µL of 10 µM forward primer
2.5 µL of 10 µM reverse primer
Methods:
- Add a single colony of cells to 50 µL of water. Incubate at 95C for a minute to lyse the cells.
- Combine 1 µL cell lysate, 25 µL RedTaq mastermix, 2.5 µL of 10 µM forward primer, 2.5 µL of 10 µM reverse primer, and sterile water up to 50 µL.
Note: It is important to add RedTaq Master Mix last in order to prevent primer degradation caused by the 3 ́→ 5 ́ exonuclease activity - Incubate in the thermocycler - Taq has a lower optimum temperature than Phusion.
Thermocycling
The PCR machine should be set to run the following steps:
Step | Temperature (°C) | Time |
---|---|---|
Initial denaturation | 98 | 30 seconds |
25-35 cycles | 98 (denaturation) 45-72 (annealing) see Note 1 68 (extension) |
5-10 seconds 10-30 seconds 15-30 seconds per kb |
Final extension | 72 | 5-10 minutes |
Hold | 4 | Indefinitely |
Note: If loading on a gel, the RedTaq mix contains loading dye, so don’t add anything else.
Materials:
25 g LB broth (powder)
1 Litre Purified Water
Methods:
- Add 25g LB broth to 1 litre purified water
- Autoclave
Materials:
37 g LB Agar (powder)
1 Litre Purified Water
Methods:
- Add 37g LB Agar to 1 litre purified water
- Autoclave
Materials:
500µl glycerol (80%)
500µl overnight culture in LB
Methods:
- Add 500µl glycerol (80%) to 1.5ml eppendorf tube
- Add 500µl overnight culture in LB
- Store at -80°C
Materials:
Agarose Powder
TAE buffer
Gel mould
5-10 µL SybrSafe
Gel Tank
8-10 µL DNA ladder
DNA loading dye
Methods:
- Prepare 8% w/v solution of agarose powder in 1/10 TAE buffer (e.g. 0.8g agarose powder in 100 mL buffer) using a conical flask
- Heat the mixture until agarose is completely dissolved. Do not let the solution boil.
- Pour the solution into a gel mould
- Add 5-10 µL SybrSafe® to the solution. Make sure there are no bubbles in the solution.
- Allows the solution to set (approx 15-20 minutes)
- Transfer the agarose gel to a tank, remove the comb and apply:
- 8-10 µL of the DNA ladder
- DNA samples with the corresponding amount of DNA loading dye (6X)
- Run the gel for 45-60 minutes at 100V
Materials:
Microcentrifuge tube
Ice
1 µL T4 DNA Ligase
2 µL 10X T4 DNA ligase buffer
50ng Vector Plasmid
Insert DNA
Sterile water
Methods:
- Calculate volumes of vector and insert DNA required using NEBioCalculator ( http://nebiocalculator.neb.com/#!/ligation - required molar ratio of 1:3::vector:insert)
- Add vector plasmid, insert DNA, T4 DNA ligase and T4 DNA ligase buffer to the microcentrifuge tube on ice (add T4 DNA ligase last)
- Make reaction up to 20 µL using sterile water
- Incubate at room temperature for 30 - 60 min for sticky ends or 1-2 hours for blunt ends
Materials:
Restriction Enzyme:
NEB enzyme finder used to see which restriction enzymes are required
10X buffer: NEB double digest finder used to see which buffers are required for the particular restriction enzymes
Plasmid DNA
Sterile water
Methods:
Component | Test digest Double digestion (20 µL, for construct analysis) |
Assemble digest
Double digestion (20-50 µL, for gene assembly) |
---|---|---|
Sterile water | to 20 µL | to 50 µL |
10X buffer | 2 µL | 2-5 µL |
Plasmid DNA | ~200 ng for test digest,
(DNA mass is variable dependent on insert size. Smallest digestion fragment mass should be > 50ng) |
1,000 -2,000 ng |
Restriction enzyme | 0.5 µL + 0.5 µL | 1 µL + 1 µL |
- Set up the reaction following the instruction in the table above , depending on whether test digest or assembly digest is being performed.
- Incubate digestion reaction at 37°C:
- 30 min for Test digest
- 2-3 hours or overnight for Assembly digest
- Perform heat deactivation at 80°C for 20 minutes, if not running on a gel at the end of incubation.
Materials:
Microcentrifuge tube
Media of choice
Overnight Culture of Cells
96 well plate
Plate reader
Methods:
- Dilute overnight cultures to 0.1 OD. Don’t forget the media control.
- Seed your cells in the 96 well plate at 100μL per well.
- Make reaction up to 20 µL using sterile water
- Set the plate reader for 600OD and run it for 12 hours for bacteria or 24 hours plus for yeast
Materials:
Microcentrifuge tube
Media of choice
Overnight Culture of Cells
96 well plate
Flow Cytometer
PBS
Methods:
- Use Flowjo to predefine the gates for the Flow cytometer. This allows the cells within the co culture to be counted based on size.
- Dilute the Cultures to 1 OD (don’t forget the media control) and culture together at desired inoculation ratio
- Set up samples in triplicate form on a 96 well plate. Dilute 10 fold and 100 fold in PBS.
- Incubate Cells and take samples at desired time points to obtain growth curves
Materials:
Replica plate or glycerol stock of cells
Appropriate antibiotic
LB broth
96 well plate
AHLs (at concentrations of 10pM, 100pM, 1nM, 10nM, 100nM, 1µM, 10µM and 100µM)
Methods:
- Grow overnight culture of cells, either from replica plate or glycerol stock (see overnight culture protocol)
- In the morning, add 100 µL of the cell suspension to 10 mL LB and 10µL of antibiotic
- Grow cells in incubator for 3-4 hours at 200rpm and 37°C
- Blank spectrophotometer with 1mL LB and measure OD of cells (dilute 10x in LB)
- Make up suspension of cells at OD 0.05
- Add 100µL of cells to each well in the 96-well plate using the block-filler machine
- Using the multi-channel pipette add 2µL of intended AHL to each well, add samples in triplicate form
- Using the multi-channel pipette add 2µL of intended AHL to each well, add samples in triplicate form Run on plate-reader for 12 hours, with fluorescence and absorbance measurements taken every 15 minutes (set plate reader to 37°C and 500rpm shaking)
PCR purification was performed according to the QIAquick PCR Purification Kit
Gel extraction was performed according to the QIAquick Gel Extraction Kit
Minipreps were carried out according to the QIAprep Spin Miniprep Kit