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<li class="sub-item"><a href="https://2016.igem.org/Team:Bulgaria/LabBook">lab book</a></li> | <li class="sub-item"><a href="https://2016.igem.org/Team:Bulgaria/LabBook">lab book</a></li> | ||
<li class="sub-item"><a href="https://2016.igem.org/Team:Bulgaria/Safety">safety</a></li> | <li class="sub-item"><a href="https://2016.igem.org/Team:Bulgaria/Safety">safety</a></li> | ||
− | <li class="sub-item"><a href="https://2016.igem.org/Team:Bulgaria/ | + | <li class="sub-item"><a href="https://2016.igem.org/Team:Bulgaria/Protocols">protocols</a></li> |
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Latest revision as of 02:27, 20 October 2016
Making Electrocompetent Cells +
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Day 1
Streak out frozen glycerol stock of E. coli (Top 10, DH5α, etc.) onto an LB plate (no antibiotics). Grow plate overnight at 37°C.
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Day 2
Autoclave: 2 L of ddH2O 100 mL of 10% v/v glycerol (molecular biology grade), 1 L LB media, 4 centrifuge bottles and caps plus lots of 1.5 ml tubes
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Day 3
- Autoclave: 2 L of ddH2O 100 mL of 10% v/v glycerol (molecular biology grade), 1 L LB media, 4 centrifuge bottles and caps plus lots of 1.5 ml tubes
- Chill overnight at 4°C: ddH2O, 10% glycerol, centrifuge rotor
- Prepare starter culture - select a single colony of from fresh LB plate and inoculate a 10 mL starter culture of LB. Grow culture at 37°C in shaker overnight.
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Day 4
- Inoculate 1 L of LB media with 10 mL starter culture and grow in 37°C shaker. Measure the OD600 every hour, then every 15-20 minutes when the OD gets above 0.2.
- When the OD600 reaches 0.35-0.4, immediately put the cells on ice. Chill the culture for 20-30 minutes, swirling occasionally to ensure even cooling. Place centrifuge bottles on ice at this time
- (Spin #1) Split the 1 L culture into four parts by pouring about 250 mL into ice cold centrifuge bottles. Harvest the cells by centrifugation at 1000g for 20 minutes at 4°C.
- Decant the supernatant and resuspend each pellet in 200 mL of ice cold ddH2O.
- (Spin #2) Harvest the cells by centrifugation at 1000g for 20 minutes at 4°C.
- Decant the supernatant and resuspend each pellet in 100 mL of ice cold ddH2O.
- (Spin #3) Combine resuspensions into 2 centrifuge bottles (so each contains about 200 mL of cell suspension). Harvest the cells by centrifugation at 1000g for 20 minutes at 4°C. At this step, rinse two 50 mL conical tubes with ddH2O and chill on ice.
- Decant the supernatant and resuspend each pellet in 40 mL of ice cold 10% glycerol. Transfer each suspension to a 50 mL conical tube.
- Harvest the cells by centrifugation at 1000g for 20 minutes at 4°C. Start putting 1.5 mL microfuge tubes on ice if not already chilled.
- Carefully aspirate the supernatant with a sterile Pasteur pipette. Resuspend each pellet in 1 mL of ice cold 10% glycerol by gently swirling. The final OD600 of the resuspended cells should be ~ 200-250.
- Aliquot into sterile 1.5 mL microfuge tubes and snap freeze with liquid nitrogen. Store frozen cell in the -80°C freezer.
Electroporation Protocol +
- Place SOC recovery medium in a 37°C water bath. Pre-warm selective plates at 37°C for 1 hour. Place electroporation cuvettes (2mm) and microcentrifuge tubes on ice.
- As a positive control for transformation, use the 20 pg/μl plasmid from the iGEM kit. Heat-denatured ligation reactions can be used for electroporation directly; however, column purification is recommended.
- Use 100 μl freshly prepared electrocompetent cells in a pre-chilled microcentrifuge tube. Add 1 μl of the DNA solution.
- Carefully transfer the cell/DNA mix into a chilled cuvette without introducing bubbles and make sure that the cells deposit across the bottom of the cuvette. Electroporate using the Prokaryotes O program for Eppendorf Eporator.
- Immediately add 500 µl of 37°C SOC to the cuvette, gently mix up and down twice, then transfer to a 1.5 ml tube.
- Shake vigorously (250 rpm) or rotate at 37°C for 1 hour.
- Dilute the cells as appropriate then spread 10-200 μl cells onto a pre-warmed selective plate.
- Incubate plates overnight at 37°C.
Plasmid DNA isolation - Miniprep +
- Apply 40 μl of activation Buffer PL onto the spin-column (do not spin) and keep it at room temperature till transfering lysate to the spin-column.
- Pour cells from overnight culture (11-14 h) into 1.5-2 ml tubes. Spin down 1.5-4 ml in a microcentrifuge at app. 14,000 rpm for 2 minutes. Pour off the supernatant and blot tubes upside-down on paper towel to remove any remaining media.
- Add 250 µl of Cell R buffer and completely resuspend the cell pellet.
- Add 200 µl of blue-coloured Lysis Blue buffer. Mix gently, but completely by several-fold inverting, until uniform blue colour of cell resuspension is obtained.
- Add 350 µl of neutralization and binding buffer Neutral B. Mix by several-fold inverting, until blue colour will disappear.
- Spin down in a microcentrifuge at app. 14,000 rpm for 7 minutes.
- Pour the supernatant from step 5 into the spin-column placed in the receiver tube.
- Spin down at 12,000 rpm for 1 minute.
- Remove the spin-column, pour off supernatant and place back into the receiver tube.
- Add 500 µl of Wash PLX1 buffer and spin down at 12,000 rpm for 1 minute.
- Remove spin-column, pour off supernatant, replace back spin-column.
- Add 650 µl of Wash PLX2 buffer and spin down at 12,000 rpm for 1 minute.
- Remove spin-column, pour off supernatant, replace spin-column.
- Spin down at 12,000 rpm for 2 minutes to remove traces of the Wash PLX2 buffer.
- Place spin-column into new receiver tube (1.5-2 ml). Add 50-100 µl of Elution buffer to elute bound DNA.
- Incubate spin-column/receiver tube assembly for 2 minutes at room temperature.
- Spin down at 12,000 rpm for 2 minutes.
- Remove spin-column, cap the receiver tube. Plasmid DNA is ready for analysis/manipulations.
- Remove spin-column, cap the receiver tube. Plasmid DNA is ready for analysis/manipulations. It can be stored either at 2÷8oC or (preferred) at -20oC
gBlocks Fragment Amplification +
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Phusion® DNA Polymerase amplification reaction
Nuclease-free H2O Adjust to final 50 μL 5X Phusion HF 10 μL 10 mM dNTPs 1 μL 10 μM Forward Primer 2.5 μL 10 μM Reverse Primer 2.5 μL gBlocks® Gene Fragments 0.1–1.0 ng Phusion® DNA Polymerase 0.5 μL Total volume 50 μL
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PCR program:
Initial denaturation: 98˚C, 30 seconds Cycle start: Denaturation 98˚C, 10 seconds Annealing 45–72˚C, 10–30 seconds Extension 72˚C, 20 seconds per kb Cycle end (20 cycles) Final extension 72˚C, 5 minutes Hold 4˚C, ∞
PCR Purification of DNA fragment (Quick Gel Extraction and PCR Purification Combo Kit) +
- Add 4 volumes of Binding Buffer (B2) to 1 volume of PCR reaction (50–100 μL). Mix well.
- Remove a PureLink® Clean-up Spin Column in a Wash Tube from the package.
- Add sample in Binding Buffer from step 1, above, to the PureLink® Spin Column.
- Centrifuge the PureLink® Spin Column at room temperature at 10,000 × g for 1 minute.
- Discard the flow through and replace the PureLink® Spin Column into the Wash Tube.
- Add 650 μL Wash Buffer with ethanol to the PureLink® Spin Column.
- Centrifuge the PureLink® Spin Column at room temperature at 10,000 × g for 1 minute. Discard the flow-through from the Wash Tube and replace the PureLink® Spin Column into the tube.
- Centrifuge the PureLink® Spin Column at maximum speed at room temperature for 2–3 minutes to remove any residual Wash Buffer. Discard the Wash Tube.
- Place the PureLink® Spin Column in a clean 1.7-mL PureLink® Elution Tube (supplied with the kit).
- Add 50 μL Elution Buffer (E1) or sterile, distilled water (pH >7.0) to the center of the PureLink® Spin Column.
- Incubate the PureLink® Spin Column at room temperature for 1 minute.
- Centrifuge the PureLink® Spin Column at maximum speed for 1 minute.
- The elution tube contains the purified PCR product. Remove and discard the PureLink® Spin Column. The recovered elution volume is ~48 μL.
Purifying DNA from Gels Using a Centrifuge +
- Pipet the dissolved gel piece containing the DNA fragment of interest (steps 4–5, page 10) into the center of a PureLink® Clean-up Spin Column inside a Wash Tube. Note: Do not load >400 mg agarose per PureLink® Spin Column.
- Centrifuge the tube at >10,000 × g for 1 minute. Discard the flow-through and replace the PureLink® Spin Column into the Wash Tube.
- Add 500–700 μL Wash Buffer (W1), containing ethanol, to the PureLink® Spin Column.
- Centrifuge the tube at >10,000 × g for 1 minute. Discard the flow-through and replace the PureLink® Spin Column into the Wash Tube.
- Centrifuge the tube again at maximum speed for 2–3 minutes to remove any residual Wash Buffer and ethanol.
- Discard the Wash Tube and place the PureLink® Spin Column into an Elution Tube.
- Add 50 μL Elution Buffer (E1) to the center of the PureLink® Spin Column.
- Incubate the tube for 1 minute at room temperature.
- Centrifuge the tube at >10,000 × g for 1 minute. The Elution Tube contains the purified DNA. Discard the PureLink® Spin Column.
- Store the purified DNA or proceed to your downstream application of choice.
Overlap extension PCR +
- Set up PCRs using Phusion High Fidelity Polymerase to generate products AB and CD.
- Gel purification of products X and Y
- Component Product XY amplification reaction Nuclease-free H2O Adjust to final: 50 μL 5X Phusion HF : 10 μL 10 mM dNTPs: 1 μL Product X (template): 50–125 ng Product Y (template): 50–125 ng 10 μM Forward Primer (X forward): 2.5 μL 10 μM Reverse Primer (Y reverse): 2.5 μL Phusion polymerase: 0.5 μL
Protocol for Restriction Digestion +
Add: 2 µL 10X Buffer (according to the enzymes specifications). X µL DNA (0.5-1 µg/µL) 0.5-2 µL selected restriction enzyme nuclease-free water up to 20 µL Mix gently and spin down for a few seconds. Incubate at 37°C for 1-16 hours (according to the enzymes specifications and the DNA amounts). The digestion reaction may be scaled either up or down.
Ligations +
- Add the following reagents to a PCR tube: Reagent Amount 5X Ligase Reaction Buffer Vector DNA 50-100 ng Insert DNA (1:1 or 3:1 ratio) ExpressLink™ T4 DNA Ligase 5 units (in 1 μL) autoclaved distilled water to 20 μL
- Mix gently. Centrifuge briefly to bring the contents to the bottom of the tube.
- Incubate at room temperature for 5 - 15 minutes.
- Use 2 μL of the ligation reaction to transform 100 μL of electrocompetent cells.
Glycerol Stocks +
- Pick a single colony of the clone off of a plate and grow an overnight in the appropriate selectable liquid medium (e.g., LB amp).
- Make a label (clone ID # and date) for the construct.
- Add 0.5ml of the o/n culture to 0.5ml of 80% sterile glycerol in the sterile screw cap microcentrifuge tube.
- Screw a lid onto the tube and write the clone ID # on the lid of the tube.
- Vortex.
- Freeze the glycerol stock at –80oC.
-
To streak out from a glycerol stock:
- Determine the location (-80oC tower #, box #, row #) of the construct.
- Take the tube to the place that you intend to streak the clone out
- Flame a metal inoculating loop until it is red hot.
- Scrape off a portion from the top of the frozen glycerol stock and streak it onto your plate.
- Return the construct to the –80oC.
Induction and Purification of proteins: +
We used Rosetta-gami (DE3) pLysS cells. The pLysS plasmid, carried by those cells, has a chloramphenicol resistance so we added chloramphenicol to the growth media. In case of other expression strains (e.g. BL21) without chloramphenicol resistance this antibiotic should not be added.
- Take a single colony and inoculate 2ml LB / Amp + Chloramphenicol at 37oC over night
- Next morning dilute 1:50 or 1:100 in a 5ml LB / Amp + Chloramphenicol and incubate at 37oC with shaking at 230rpm.
- Wait till the OD gets to 0.4-0.5 and take out 0.5ml of culture, freeze pellet- store. This is the uninduced time point.
- Add this point add 1mM (final concentration) of IPTG.
- After adding 1mM IPTG, split the culture - take out 1ml and incubate that tube at 20oC with shaking at 200rpm for 16 hours. Re-incubate remaining culture at 37oC with shaking at 230 rpm, and collect 0.5ml fractions every hour for 3 hours.
- Spin down the cultures (including the un-induced) at max speed and resuspend The cell pellet in 50ul of SDS sample buffer.
- Boil the samples for 3 minutes with brief vortexing every minute.
- Load 5 ul (equivalent to 100ul of cells) onto an SDS –PAGE gel, and Coomaasie stain the gel.