Team:HKU HongKong/Data/Mol Protocols.html
From 2012.igem.org
Team:HKU HK
From 2011.igem.org
Molecular Cloning Protocols
Transforming Competent E.coli with the
Plasmid:
We chose the biobrick K137076 to
ligate to the pvdQ gene for the following reasons:
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Take out the competent E-coli cells from the -80 freezer. (Keep all tubes on ice).
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Add 1uL of the plasmid DNA in 100uL competent cells (if from Kit). For transformation of ligated product, add 10uL of the ligated plasmid DNA in 100uL competent
cells.
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Incubate on ice for 10 min.
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Place in water bath at 42°C for 90s.
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Place immediately back on ice for at least 2 min.
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Add 800uL LB broth. Incubate for 1hr at 37°C shaker.
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Centrifuge at 130rpm for 5min to remove supernatant. Re-suspend the pellet in about 10uL of supernatant.
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Spread the entire re-suspended pellet on ampicillin agar dishes.
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Incubate for 12-16 hours at 37 °C.
Notes:
- Colonies grown on plate were selected for colony PCR screening.
- Correct colonies were then cultured in 5 mL LB Broth with 0.5uL ampicillin for subsequent screening or mass culturing.
- Mass culturing involved adding 200uL of the culture into 35mL LB Broth with 35uL ampicillin.
Miniprep to Extract the Plasmid from E.coli (QIAprep Spin Miniprep Kit):
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Transfer some of the 5mL bacterial culture into a microcentrifuge tube. Pellet by centrifugation at 13,500 rpm for 1 min. Repeat till all the culture has been pelleted.
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Resuspend the pellet in 250uL Buffer P1.
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Add 250uL Buffer P2 (Lysis Buffer). Mix thoroughly by inverting the tube 4-6 times. Do not allow prolonged lysis.
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Immediately add 350uL Buffer N3 (Neutralization Buffer). Mix immediately by inverting the tube.
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Centrifuge for 10 minutes at 13,500 rpm.
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Apply the resulting supernatant to the QIAprep spin column by pipetting. Centrifuge for 1 minute at 13,500 rpm.
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Wash the QIAprep spin column by applying 0.75mL Buffer PE. Centrifuge for 1 minute at 13,500 rpm.
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Centrifuge for an additional 1 minute to remove residual ethanol.
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Place the QIAprep spin column in microcentrifuge tube. Elute DNA by adding 50uL warm H2O.
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Centrifuge for 1 minute at 13,500 rpm.
Midiprep for Large Volumes of Culture (QIAGEN Plasmid Midi Kit):
Refer to the QIAGEN website for the protocol.
PCR Amplification of Gene from Bacterial Genome/Standard Biobrick Parts
37.5μL ddH2O
5.0μL 10x PCR Buffer
2.5μL dNTPs
1.0μL Forward Primer (Prefix)
1.0μL Reverse Primer (Suffix)
1.0μL Template DNA
1.0 μL RTaq DNA Polymerase
50.0μL Total
Note:
- For sequential PCR reactions: After the first PCR is complete, perform
PCR clean-up. Then use the product to conduct the second PCR reaction,
after which gel purification needs to be carried out.
- The volume of DNA used in the second PCR reaction depends on the concentration of the DNA after the PCR Clean-up.
PCR Clean-Up – Qiagen QIAquick PCR Purification:
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Add 5 volumes of Buffer PB to 1 volume of PCR mix.
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Place this mix within the QIAquick column. Centrifuge at 13,500 rpm for 1 minute.
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Discard flow through and centrifuge again to allow all the sample to pass through.
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Wash with 750uL Buffer PE. Centrifuge at 13,500 rpm for 1 minute.
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Discard flow through and centrifuge again to remove all residual buffer.
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Place the column in a micro centrifuge tube.
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Apply 50uL of pre-warmed distilled H2O to the column. Stand for at least 2 minutes.
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Centrifuge at 13,500 rpm for 1 minute.
Colony PCR
14.52μL ddH2O
2.0μL 10x PCR Buffer
1.6μL dNTPs
0.4μL Forward Primer (Prefix)
0.4μL Reverse Primer (Suffix)
1.0μL Template DNA
0.08μL RTaq DNA Polymerase
20.0μL Total
Notes:
- The mixture was pipetted into PCR tubes
- All materials were kept on ice
- Colonies will inoculated into 5uL broth prior to PCR
- Prefix and Suffix were used as Forward and Reverse Primers respectively while amplifying standard biobrick parts
- PCR Reaction: 95°C - 10 min
95°C - 30 sec
57°C - 30 sec (appropriate annealing temperature for prefix and suffix)
72°C - 30 sec
(28 cycles all together)
72°C - 5 min
Agarose Gel Electrophoresis
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Prepare a 2% or 1% Agarose Gel (amount in grams depending on volume of TAE buffer used). Add 0.1% Ethidium Bromide of the total volume.
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Place the gel in the Electrophoresis Apparatus with the wells facing the Negative Electrode.
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Fill the apparatus with 1% TAE Buffer to fully submerge the wells.
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Load 5µL of 1kb Ladder for each Run
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Add 0.1% of 10% Loading Dye to the respective volume of sample. Mix well and spin down.
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Pipette the samples into the wells and run at 106 Volts.
Gel
Purification of DNA (Qiagen QIAquick Gel Extraction Kit)
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Exercise the DNA fragment from the Agarose Gel using a scalpel. Minimize the extra peripheral gel slice.
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Weigh the gel slice (0.1g = 100uL) and add 3 Volumes of Buffer QG to every 1 Volume of Gel.
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Incubate in 50°C water bath for 10 minutes to completely dissolve the gel slice.
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Add 1 Volume of Isopropanol to the sample. Mix well
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Apply the sample to the QIAquick column. Centrifuge at 13,500 rpm for 1 minute. [Repeat till the total volume of the sample has sieved through the column]. Discard the flow through
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Apply 0.5mL Buffer QG to the QIAquick column. Centrifuge at 13,500 rpm for 1 minute.
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Discard the flow through
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Wash the column with 0.75mL Buffer PE. Centrifuge at 13,500 rpm for 1 minute.
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Discard the flow through and Centrifuge at 13,500 rpm for an additional 1 minute to eliminate any residual ethanol.
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Place the QIAquick column into a 1.5mL Eppendorf tube.
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Apply the 30uL warm H2O to the column. Let the column stand for at least 1 minute.
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Centrifuge at 13,500 rpm for 1 minute.
Determining DNA Concentration Using NanoDrop Spectrophotometry
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Choose the Nucleic Acid Measurement option in the programme.
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Initialize the NanoDrop by adding 1uL clean H2O. Clean the sensor gently with tissue.
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Set Blank by adding an additional 1uL of clean H2O. Wipe off.
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Add 1uL of the DNA sample to be measured. Wipe off after each run.
DNA Digestion
__μL ddH2O (to a total of 40uL)
4μL 10X NEBuffer
0.4μL 100X BSA
1ug DNA Sample
__μL 1st Restriction Enzyme
__μL 2nd Restriction Enzyme (optional)
40μL Total
Notes:
- The NEB official website should be checked for buffers suitable for each restriction enzyme. Results can vary depending on double or single digestion.
- Incubate the digestion sample at 37°C for 3 hours (digestion time can also vary depending on enzyme). Prolonged digestion may lead to Star Activity otherwise.
- The volume of DNA must be calculated from its concentration. In restriction digestion test, the minimum volume that is equals 1ug DNA can be utilized. However, for purification, a much greater volume of DNA should be used.
- Appropriate amount of enzyme is derived from its concentration and the fact that 5 units of enzyme digest 1ug DNA.
Dephosphorylation of 5' Ends of Vector Backbone
- Add 0.5µL (0.5 units per 1 ug DNA) of Calf Intestinal Alkaline Phosphatase (CIAP) to the digested sample
immediately after digestion.
- Incubate at 37°C for 30 minutes
Vector-Insert Ligation
__μL Autoclaved ddH2O (to a total of 20uL)
2μL T4 Ligase Buffer
1μL T4 DNA Ligase
__μL Vector DNA
__μL Insert DNA
20μL Total
Notes:
- Insert and Vector must be in a 3:1 ratio. The amount of each depends on their concentration (ng/uL) and legnth (bp).
- Incubate at room temperature for 1 hour.
PCR Deletion (Site-Directed Mutagenesis) Reaction
Note: Keep everything on ice and add all volumes in a PCR tube.
? µL ddH2O (? = whatever volume needed to bring the total volume up to 50µL)
5.0μL 10x PfuUltra buffer
1.0μL dNTPs
? uL forward primer = 125ng fwd primer ÷ fwd primer concentration (ng/µL)
? uL reverse primer = 125ng rvs primer ÷ rvs primer concentration (ng/µL)
? µL dsDNA= 20ng insert ÷ insert concentration (ng/µL)
1.0μL PfuUltra high-fidelity DNA polymerase
50.0μL Total
- Volumes of diluted primer based on calculations for our ng/µL concentrations
95°C for 2min
95°C for 30sec (18 times)
55°C for 30sec
72°C for 1 min/kb
1min/kb corresponds to: 3.20min (RFP), 3.50min (VioA), 5.40min (VioB), 3.00min (VioE)