Team:UNIPV-Pavia/Protocols/Pcr
From 2008.igem.org
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*into an eppendorf tube. | *into an eppendorf tube. | ||
*Put the eppendorf tube in the thermal cycler and set this program: | *Put the eppendorf tube in the thermal cycler and set this program: | ||
- | **95°C 10 min | + | **95°C 10 min |
**CYCLE: | **CYCLE: | ||
***95°C 30 sec | ***95°C 30 sec |
Revision as of 12:19, 22 June 2008
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The protocols we used
- LB medium preparation
- Plasmid resuspension from IGEM paper spots
- Transformation
- Plasmid extraction
- BioBrick digestion with restriction enzymes
- DNA gel extraction
- Antarctic Phosphatase
- Ligation
- PCR
PCR
(estimated time: 3 hour and 30 min)
Materials needed:
- MgCl2
- Buffer
- dNTPs
- ddH2O
- Taq Polymerase
- VF2 primer
- VR primer
- For every DNA sample you want to amplify, put:
- 2 µl buffer
- 0.6 µl MgCl2
- 0.4 µl dNTPs
- 1 µl DNA (or ddH2O for blank sample). If you are performing a colony PCR, pick up the desired colony from a plate with a tip and dip it in the solution.
- 0.2 µl Taq Polymerase
- 250 nM VF2 primer
- 250 nM VR primer
- A proper amount of ddH2O to have 20 µl of total reaction volume
- into an eppendorf tube.
- Put the eppendorf tube in the thermal cycler and set this program:
- 95°C 10 min
- CYCLE:
- 95°C 30 sec
- 60°C 1 min
- 72°C 1 min
- 35 cycles
- 72°C 7 min
- 16°C forever.
- Now you can add a loading buffer to the solution and perform electrophoresis to check the amplified sequence length.