Team:Uppsala/Experiments
Experiments and protocols
A majority of the protocols we used originate from the book "Synthetic biology-A lab manual", written by Anthony Forster, Erik Gullberg and Josefine Liljeruhm. They can therefore not be published here. We do however recommend you to buy it, as it was a great help in our project. The following protocols from the sixth chapter of this book were used:
- 0.9% NaCl
- 50% Glycerol
- 1M CaCl2
- 10x TBE Buffer
- SOB Medium
- LB Medium
- LB Agar Plates and Addition of Antibiotics
- Overnight Cultures with antibiotics, and glycerol stocks
- Agarose gel electrophoresis
- Preparation of competent E. coli cells using CaCl2
- Transformation of CaCl2 competent E. coli cells
- Bacterial re-streak techniques
- Digestion with DpnI
- 3A assembly
- Colony PCR
We also used several other protocols which we share below.
Laccase and dioxygenase protocols
Restriction Free Cloning
Inserting fragment A after fragment B into fragment B plasmid:
- Design primers for fragment A with overhangs complementary to fragment B and to the suffix of the fragment B plasmid
- PCR to amplify fragment A + overhangs
- 21.2 μl ddH2O
- 5 μl 2mM dNTP
- 10 μl 5x HF Buffer (for Phusion polymerase)
- 0.3 μl Phusion HF DNA Polymerase
- 2.5 μl DMSO (total concentration 5%)
- 10 ng plasmid with fragment A
- 5 μl (5 ng/μl) of each primer
- Total volume 50 μl
- Run with PCR program below:
- Run all of the PCR-product on a 2% agarose gel with big wells that can fit 50 μl.
- Extract DNA using gel extraction kit
- 500 ng extracted product
- 10 μl 5x HF Buffer (for Phusion polymerase)
- 0.3 μl Phusion HF DNA Polymerase
- 5 μl DMSO (total concentration 10%)
- 100 ng of target plasmid (with fragment B)
- 18.7 μl ddH2O
- Run with the PCR program below:
- Add 1 μl of Dpn1 to the PCR product and incubate for 2h.
- Transform with 10 μl of PCR product
- Colony PCR with VR and VF2, run on gel to confirm correct assembly of the parts.
Immobilized metal ion affinity chromatography (IMAC)
Materials needed- IMAC Column; ice, stand, sample tubes.
- Sample Buffer (50mM of Sodiumphosphate, 60mM imidazol, 1 M NaCl: pH 7.1)
- Elution Buffer (50mM Sodiumphosphate, 300mM imidazol, 1M NaCl: pH7.1)
- Pump
- Ni(II)sulfate solution (20mM)
- Chelating Sepharose Fast Flow gel.
Step 1: Packing of the IMAC column.
Assemble the columns bottom part, tube and adapter. Leave the top adapter. It will be connected last to remove any bubbles.
- Degas 200ml sample buffer and roughly 200mL deionized water.
- Calibrate the pump flow rate to 1ml/min.
- Pipette carefully degassed gel into the column (the column should be filled with 1-2cm of sedimented gel).
- Fill the column carefully, without stiring the gel, with deionized water.
- Connect the last adapter and make sure there are no bubbles in the column. (Connecting it migth require some force).
Step 2: Equilibrate the column
By equilibrating the column with Ni^2+ ions, the HIS-taged proteins will bind to the column.
- Run 20mL of NI(II)sulfate solution thorugh the column. The gel will be saturated with Ni^+2. The waste solution should be gathered in a special tube for separete disposal due to
- NTA
- MgSO4·7H2O
- CaCl2·2H2O
- (NH4)6Mo7O24·4H2O
- FeSO4·7H2O
- Metals 44 solution
- Na4EDTA·4H2O
- ZnSO4·7H2O
- FeSO4·7H2O
- MnSO4·H2O
- CuSO4·5H2O
- Co(NO3)2·6H2O
- Na2B4O7·10H2O
- Biotin
- Nicitinic acid
- Thiamin hydrochloride
- A 50mm petri plate was covered with 600 µl of olive oil.
- In the centre of the plate, small drops of either 50 or 100µl of bacterial culture were placed.
- The drop was observed for eventual collapse and the diameter of the drop was measured after 0, 5, 10, 15 and 20 min.
- A collapsed drop indicate that the presence of biosurfactants.
- Overnight bacterial culture was centrifuged 10 000 rpm for 10 minutes.
- Supernatant of the samples were filtered using 0,45 μm syringe filter.
- The filtered supernatant was extracted with ethyl acetate in 1:1 v/v ratio three times.
- The organic solvent was removed by evaporation using vacuum centrifuge overnight.
- 10 μl 99% ethanol was added to the dried samples which then could be loaded on TLC silica plates
- TLC was performed using chloroform/methanol/acetic acid in a ratio of 65:15:2 as a developing solvent.
- For visualisation, the plate that has been developed was air dried and sprayed with a detection agent composed of 0.075 g orcinol, 4.1 mL sulphuric acid (60 %, v/v) and 21 mL deionised H2O.
- The plate was left to dry at room temperature, and then, the sugar moieties were stained by incubating the plates at 110 °C for 10 min.
- 10 g carbon source peptone per liter of distilled water
- 0.35 g KH2PO4
- 0.45 g Na2HPO4
- 1 g NaNO3
- 0.2 g MgSO4·7 H2O
- 0.05 g CaCl2·2 H2O
- 1 ml of a trace elements solution (acidified with 37% HCl) containing 2 g FeSO4·7 H2O, 1.5 g MnSO4·H2O, and 0.6 g (NH4)6Mo7O24·4H2O per-liter distilled water.
- 0.1g CTAB (cetyl-trimethyl-ammonium bromide)
- 0.0025 g methylene blue
- 7.5 g agar (difco) to 500 ml salts medium
- environmental reasons.
- Wash the column with roughly 20ml of deionized water. This will remove the excess of Ni^+2.
- Now equilibrate the column with 30ml of degassed sample buffer.
Step 3. Running the column with sample.
- Degas 70ml of elution buffer.
- Run your sample through the column. Gather the flowthrough liquid in a marked collection tube.
- Wash the column with 30 ml of degassed sample buffer. Gather the flowthrough in 10ml fractions (Mark your fractions) . This will wash out losely bound proteins.
- Now elute your sample by running 20ml degassed elution buffert. Gather the flowthrough in 5ml fractions
- Now wash the column with 20 ml of degassed elution buffer and gather 10ml fractions. This is to make sure that all of the sample has been washed out.
Nah7 plasmid and Psuedomonas putida protocols
Preparation of P.putida minimal medium (PMM)
Materials required: NH4Cl, Na2HPO4·2H2O, KH2PO4 (pH 6.8), Hutner mineral base, vitamin solution
Hutner mineral base:
Metals 44 solution:
Vitamin solution:
Biosurfactant characterization protocols
Drop collapse test
Materials required: 50mm petri plates, stop watch, olive oil and bacterial culture
Method:
Thin Layer Chromatography
Materials required: Bacterial culture, 0.45 syringe filter, ethyl acetate, ethanol, chloroform, methanol, acetic acid, orcinol, sulphuric acid, hot air oven, vacuum centrifuge and TLC silica plates
Sample preparation:
TLC Analysis:
CTAB plate recipe
Agar plate mineral salts medium: for 500 ml (pH 6.7)
CTAB-methylene blue agar:
Method: Preparation is similar to the preparation of LB agar plates