Team:CSU Fort Collins/Notebook/Protocols=Gibson
From 2014.igem.org
Gibson Assembly Protocol
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Design Primers
- Create the gene sequence using KEGG and ApE
- Design primers using IDT's Oligo Analyzer Considerations:
- Primers should be at least 40 base pairs (bp) long and contain approximately 20 bp from each joining fragment
- For each primer pair (that is, primers amplifying the same gene), the melting temperature (Tm) of the entire primer should be close as well as the 2nd half Tm
- The highest hairpin Tm should be less than 50 °C
- Avoid repeats of 4 or more
- At the 3' end, you should end with a G or C, avoid a T or mismatches, and avoid runs of 3 or more G/Cs in the last 5 bps at the 3' end
- G/C content should be 40-60%
PCR Gibson Fragments
- For genes in plasmids:
- Start overnight cultures from glycerol stocks
- Miniprep overnight cultures
- PCR using mini prepped plasmid DNA
- Add all components as described in Table 1-1
- Pipette up and down to mix
- Run PCR Thermalcycler Program as described in Table 1-2
- Save 5 μL PCR product for gel electrophoresis
- Digest with DpnI to remove methylated DNA as described in Manual
- For genes not in plasmids:
- Follow genomic DNA PCR thermal cycler protocol (see Tables 1-1 and 1-2)
Table 1-1: PCR Mixture | ||
Component | Volume (μL) | |
5X Phusion Buffer | 10 | |
10mM dNTPs | 1 | |
Primer A | 2.5 | |
Primer B | 2.5 | |
Template DNA | 01 | |
Phusion DNA Polymerase | 0.5 | |
Nuclease-Free Water | Fill to 50 μL | |
Total | 50 |
Table 1-2: PCR Thermalcycler Program | |||
Step | Temperature (C) | Time | Cycles |
Initial denaturation | 98 | 30 s | 1 |
Denaturation | 98 | 10 s | 5 |
Annealing | Lower 2nd half Tm + 3 | 15 s | 5 |
Extension | 72 | 30 s/1 kb | 5 |
Denaturation | 98 | 10 s | 25 |
Anneal + Extension | 72 | 30 s/1 kb | 25 |
Final Extension | 72 | 10 min | 1 |
Final Hold | 4 | hold | 2- |
Check and Clean Up PCR Products
- Check size of each PCR product by gel electrophoresis
- If any PCR reaction was unsuccessful, repeat the PCR of the Gibson Fragments
- Clean up PCR products of correct size with the PCR clean-up kit and determine DNA concentrations
Prepare Gibson Reaction
- Use Equation in manual to calculate the fragment concentration
- For 2 - 3 fragments, the total DNA should be 0.05 - 0.2 pmols
- For 4 - 6 fragments, the total DNA should be 0.2 - 1.0 pmols
- Make Gibson reaction mixture according to manual
- Pipette up and down to mix
- Run thermalcycler program as described in manual
Transformation
Note: It is important to transform as soon as possible- 30 minutes before the end of the Gibson reaction, thaw competent cells on ice and set water bath to 42 DEGC
- Add 2.5 uL Gibson product to cells
- Heat shock cells for 30 seconds at 42 C without shaking
- Place on ice for 2 minutes
- Aseptically (in hood) add 250 uL appropriate media to the tube and cap tightly
- Place tubes horizontally in incubator; incubate at 37 C and 225 rpm for 1 hour
- In the hood, spread 100 uL on plate
- Incubate overnight at 37 C; store remaining culture at 4 C
Confirm Correct Construction of Plasmid (Colony PCR)
- Choose primers that flank multiple fragments of the assembled DNA
- Set up PCR reaction (follow reaction mixture from above for 50 uL)
- To add template DNA:
- Using a sterile toothpick or pipette tip, touch colony, rotate 180 degrees, and touch colony again
- Streak on LB plate with appropriate antibiotics so that you can use colony for future steps
- Swirl toothpick/pipette tip in the PCR tube to resuspend the cells
- Pipette up and down to mix
- Run PCR thermalcycler program as described in manual.
- Run gel electrophoresis to verify PCR product and confirm plasmid by sequencing if desired