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Revision as of 18:20, 7 September 2015
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Protocols
- Restriction digestion
- Ligation
- Transformation
- Agarose gel electrophoresis
- 2 part assembly with gel extraction
- Polymerase Chain Reaction
- Gibson Assembly
- Agar plate preparation
- IPTG-induced protein expression
- Spectrophotometric assays
Protocols
Restriction digestion
- Prepare restriction digestion mixture:
IDT gBlocks
- 10 ul of DNA (10 ng/ul)
- 2 ul of 10 x 2.1 buffer
- 0.3 ul of EcoR1
- 0.3 ul of Pst1
- 7.4 ul of milliQ H2O
Other digestions
- Required amount of DNA
- 1 ul of 10 x 2.1 buffer
- 0.3 ul of EcoR1
- 0.3 ul of Pst1
- add milliQ H2O up to 10 ul
(if using total volume greater than 10ul, increase the amount of buffer accordingly)
- Incubate at 37C for an hour
- Heat inactivate by incubating at 80C for 20 minutes
- Run a sample of digested DNA on a gel in order to confirm digestion:
- 2 ul of DNA
- 1 ul of 6 x Gel Loading Dye
- 3 ul of milliQ H2O
- If digestion is confirmed, proceed to ligation
- IDT gBlocks
- - 10 ul of DNA (10 ng/ul)
- - 2 ul of 10 x 2.1 buffer
- - 0.3 ul of EcoR1
- - 0.3 ul of Pst1
- - 7.4 ul of milliQ H2O
- Other digestions
- - Required amount of DNA
- - 1 ul of 10 x 2.1 buffer
- - 0.3 ul of EcoR1
- - 0.3 ul of Pst1
- - add milliQ H2O up to 10 ul
- (if using total volume greater than 10ul, increase the amount of buffer accordingly)
- - 2 ul of DNA
- - 1 ul of 6 x Gel Loading Dye
- - 3 ul of milliQ H2O
Ligation
- Calculate the amount of insert DNA required to maintain 1:3 backbone:insert molar ratio using formula below. For standard ligations use 50 ng of vector DNA, increase the amounts of DNA if unsuccessful.
$$Insert\:Mass\:in\:ng = 3\times \bigg[\frac{Insert\:Length\:in\:bp}{Vector\:Length\:in\:bp}\bigg] \times Vector\:Mass\:in\:ng$$
- Prepare the ligation mixture:
- required amount of insert DNA
- required amount of vector DNA
- 1 ul of T4 ligase
- 2 ul of 10 x ligase buffer
- add milliQ H2O up to 20 ul
- Incubate at 16C for 30 minutes
- Heat inactivate by incubating at 80C for 20 minutes
- Keep on ice until ready to proceed with transformation protocol
- - required amount of insert DNA
- - required amount of vector DNA
- - 1 ul of T4 ligase
- - 2 ul of 10 x ligase buffer
- - add milliQ H2O up to 20 ul
Transformation
- (If using part from the distribution: resuspend the DNA in 10 ul of MiliQ water, making sure that it turns red. Wait 10 minutes before adding the DNA to cells)
- Put a tube of NEB DH 5 alpha E. coli cells on ice and wait until they thaw completely. Divide the cells into 50 ul aliquotes.
- Add 1 ul of plasmid DNA to 50 ul of cells.
- Mix by carefully flicking the tube. Do not vortex or pipette in and out!
- Place the mixture on ice for 30 minutes.
- Heat shock the cells at 42 °C for 30 seconds and immediately put on back on ice.
- Keep cells on ice for next 5 minutes. Do not mix.
- Pipette 950 ul of SOC media kept at room temperature into the mixture. If SOC is not available, use LB.
- Incubate the mixture at 37 °C for 60 minutes
- Prepare plates with appropriate antibiotics. Bring plates to room temperature before plating. Use 2 plates per transformation reaction.
- Plate 200 ul of cells on one plate.
- Pellet the remaining cells and resuspend in 200ul of LB.
- Plate the remaining cells on second plate.
- Incubate plates overnight at 37 °C.
Agarose gel electrophoresis
- Measure 0.50 g of agarose
- Measure 50 ml of 1x TAE buffer using measuring cylinder
- Add agarose and TAE buffer to conical flask and gently mix
- Microwave the flask for 1 min
- Wait for the mixture to cool down slightly before proceeding
- Add 10 ul of 10mg/ml ethidium bromide solution and mix
- Assemble the casting tray and pour the gel into it
- Wait around 30 minutes until gel gets solidified
- Put the gel into the gel chamber and pour 1x TAE buffer until it is fully covered
- Load 6 ul of DNA ladder to the first well.
- Prepare the samples by adding appropriate volume of 6x gel loading dye and load them
- Assemble the gel chamber and run the gel for 40 minutes at 120V
- Visualise the gel using the gel visualizer
Assembly of 2 parts using gel extraction
- Digest at least 500 ng of each part according to the restriction digestion
- Run the digested DNA on the gel according to gel electrophoresis protocol
- Identify the parts that you want to ligate on a gel and cut the bands out using razor blade
- Purify the excised bands using the commercial kit according to the manufacturer's instructions
- Quantify the DNA yield using DNA nanodrop
- Proceed to ligation
Polymerase Chain Reaction
- Prepare the PCR mix:
- 12.5 ul of 2 x Q5 PCR master mix
- 1.25 ul of 10 uM forward primer
- 1.25 ul of 10 uM reverse primer
- 2 ng of DNA to be PCRed
- add milliQ H2O up to 25
- Set up the PCR cycles according to the following rules:
Initial denaturation
- 98C for 30 seconds
35 cycles
- 98C for 10 seconds
- 30 seconds at primer melting temperature
- 72C for 30sec/kb of PCRed fragment
Final extension
- 72C for 2 minutes
- Hold at 4C
- Confirm the PCR by running 2 ul of the product on the gel according to the gel electrophoresis protocol
- - 12.5 ul of 2 x Q5 PCR master mix
- - 1.25 ul of 10 uM forward primer
- - 1.25 ul of 10 uM reverse primer
- - 2 ng of DNA to be PCRed
- - add milliQ H2O up to 25
- Initial denaturation
- - 98C for 30 seconds
- 35 cycles
- - 98C for 10 seconds
- - 30 seconds at primer melting temperature
- - 72C for 30sec/kb of PCRed fragment
- Final extension
- - 72C for 2 minutes
- - Hold at 4C
Gibson Assembly
- When designing the gBlock fragments for Gibson Assembly, make sure that the fragments have ~20 bp overlap and that first and last insert fragment have ~20 bp overlap with respective ends of PSB1C3
- Convert the concentration of vector and inserts from ng/ul to pmol/ul using the following formula:
- Prepare the Gibson Assembly mixture:
- 0.08 pmol of each insert
- 0.04 pmol of vector
- 10 ul of Gibson Assembly mix
- add milliQ H2O up to 20 ul
- Incubate the reaction at 50C for 15 minutes. Following incubation, put samples on ice.
- Proceed to transformation protocol. Use 2 ul of the Gibson Assembly reaction mixture for transformation
- - 0.08 pmol of each insert
- - 0.04 pmol of vector
- - 10 ul of Gibson Assembly mix
- - add milliQ H2O up to 20 ul
Agar plate preparation
IPTG-induced protein expression
- On the afternoon before the induction, start seed culture with appropriate antibiotic from glycerol stock and leave to incubate overnight at 37C shaking
- The next morning, use 2 µl of seed culture to inoculate 100 ml of fresh media with appropriate antibiotic in shaker flask and grow until an OD600 nm of 0.4-0.6 is reached
- If necessary, prepare these in the meantime :
- 50 ml stock of lysis buffer (25 mM TRIS-Cl, 2 mM EDTA, pH 7.6):
- weight 0.151g of Tris base
- add 45 ml of water
- titrate with HCL to pH 7.6
- fill up to 50 ml with water
- add 29.2 mg of EDTA
- IPTG 100 mM stocks: (23.8 mg IPTG per 1ml ddH2O )
- When culture reaches OD of 0.4-0.6, add IPTG to a final concentration of 1 mM (=100ul of 100 mM stock)
- Incubate induced culture at 30 °C for 4 hours
- Split the culture into 4 falcon tubes (~25 ml each) and harvest the pellets by centrifugation for 20mins at max speed
- Resuspend each pellet in 2 ml of lysis buffer, lyse by sonication (10 cycles of 10 sec with 10 sec breaks)
- Centrifuge 20 min at max speed.
- Transfer all supernatants to separate tube
- Measure the concentration of protein in supernatant using Bradford Assay
- Store in the freezer
- - 50 ml stock of lysis buffer (25 mM TRIS-Cl, 2 mM EDTA, pH 7.6):
- weight 0.151g of Tris base
- add 45 ml of water
- titrate with HCL to pH 7.6
- fill up to 50 ml with water
- add 29.2 mg of EDTA
- - IPTG 100 mM stocks: (23.8 mg IPTG per 1ml ddH2O )