UA Biophysics:Protocols:Phusion: Difference between revisions
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To determine the optimal annealing temperatures for a given set of primers, use of the NEB TmCalculator is highly recommended. (A must!) | To determine the optimal annealing temperatures for a given set of primers, use of the NEB TmCalculator is highly recommended. (A must!) | ||
Before setting up your reaction, take a look at this page. CAREFUL! The quantities of reagents and cycling conditions may be different, but their guidelines are important. [http://eebweb.arizona.edu/blast/PCR.html University of Arizona] | |||
If you are having trouble with your PCR, you can visit [http://bitesizebio.com/ Bitesize Bio]. They have useful tips. | |||
1. Reaction Setup: | 1. Reaction Setup: | ||
| Line 28: | Line 31: | ||
|10 µM Forward Primer | |10 µM Forward Primer | ||
|1 µL | |1 µL | ||
|0.5 µM | |0.5 µM* | ||
|- | |- | ||
|10 µM Reverse Primer | |10 µM Reverse Primer | ||
|1 µL | |1 µL | ||
|0.5 µM | |0.5 µM* | ||
|- | |- | ||
|Template DNA | |Template DNA | ||
| Line 40: | Line 43: | ||
|DMSO (optional**) | |DMSO (optional**) | ||
|0.6 µL | |0.6 µL | ||
|3% | |3% | ||
|- | |- | ||
|Phusion DNA Polymerase | |Phusion DNA Polymerase | ||
| Line 58: | Line 61: | ||
|- | |- | ||
|Genomic DNA | |Genomic DNA | ||
| | |20 ng to 100 ng | ||
|- | |- | ||
|Plasmid or Viral DNA | |Plasmid or Viral DNA | ||
| Line 94: | Line 97: | ||
| | | | ||
|72 ºC | |72 ºC | ||
| | |15-30 seconds/kb** | ||
|- | |- | ||
|Final Extension | |Final Extension | ||
| Line 107: | Line 110: | ||
* Denaturation time should be kept at minimum. 10 seconds usually work. | * Denaturation time should be kept at minimum. 10 seconds usually work. | ||
** This polymerase is very fast. It will probably work with 15 seconds/kb. | |||
Please, do not hesitate to contact me if you have any question. | |||
[[Special:Emailuser/Manuela Vanegas-Ferro|Manuela Vanegas-Ferro]] | |||
[[UA Biophysics:Protocols|Return to Protocols]]<br> | [[UA Biophysics:Protocols|Return to Protocols]]<br> | ||
Revision as of 10:34, 29 July 2015
Phusion High-Fidelity DNA Polymerase offers both high-fidelity and robust performance, and thus is an ideal choice for cloning and can be used for long or difficult amplicons. (But take GC% into account).
With an error rate >50-fold lower than of Taq DNA Polymerase, Phusion is one of the most accurate thermostable polymerases available. Phusion DNA Polymerase possesses 5'→3' polymerase activity, 3'→5' exonuclease activity and will generate blunt-ended products. (Q5 has an error rate 2-fold lower than Phusion, but Phusion is slightly faster and does not come in a master mix. PCR Troubleshooting).
To determine the optimal annealing temperatures for a given set of primers, use of the NEB TmCalculator is highly recommended. (A must!)
Before setting up your reaction, take a look at this page. CAREFUL! The quantities of reagents and cycling conditions may be different, but their guidelines are important. University of Arizona
If you are having trouble with your PCR, you can visit Bitesize Bio. They have useful tips.
1. Reaction Setup: Assemble all reaction components on ice and quickly transfer the reactions to a thermocycler preheated to the denaturation temperature (98°C). All components should be mixed and centrifuged prior to use.
| Component | 20 µL Reaction | Final Concentration |
|---|---|---|
| Nuclease-free water | to 20 µL | |
| 5X Phusion HF or GC Buffer | 4 µL | 1X |
| 10 mM dNTPs | 0.4 µL | 200 µM |
| 10 µM Forward Primer | 1 µL | 0.5 µM* |
| 10 µM Reverse Primer | 1 µL | 0.5 µM* |
| Template DNA | Variable**** | < 1 µg |
| DMSO (optional**) | 0.6 µL | 3% |
| Phusion DNA Polymerase | 0.2 µL*** | 1 unit / 50 µL PCR |
* You can manipulate your primers' concentration according to your design. ** DMSO is a PCR enhancing agent used for difficult templates. It can be added up to a concentration of 10%. *** This volume can lead to pipetting error. Set up a master mix for all the reactions you need and then you can distribute it into the reaction tubes. This way you will pipette larger volumes and avoid some error. **** Use of high quality, purified DNA templates greatly enhances the success of PCR. Recommended amounts of DNA template for a 50 µl reaction are as follows:
| DNA | Amount |
|---|---|
| Genomic DNA | 20 ng to 100 ng |
| Plasmid or Viral DNA | 0.4 pg to 0.4 ng |
(CAREFUL! You should add reagents in the order listed above to prevent contamination and primer degradation)
2. Gently mix the reaction and spin down in microcentrifuge. (Spinning is important in order to collect all the reagents in the bottom of the tube).
3. Cycling Conditions:
| Step | Temperature | Time |
|---|---|---|
| Initial Denaturation | 98 ºC | 30 seconds |
| 25-35 cycles | 98 ºC | 5-10 seconds |
| 50-72 ºC (NEB TmCalc) | 10-30 seconds* | |
| 72 ºC | 15-30 seconds/kb** | |
| Final Extension | 72 ºC | 2 minutes |
| Hold | 4 ºC | - |
* Denaturation time should be kept at minimum. 10 seconds usually work. ** This polymerase is very fast. It will probably work with 15 seconds/kb.
Please, do not hesitate to contact me if you have any question.
