Blackburn:Yeast Colony PCR v2.0: Difference between revisions
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==Overview== | ==Overview== | ||
This is a quick and easy yeast colony PCR protocol that does not require zymolyase step. | This is a quick and easy yeast colony PCR protocol that does not require zymolyase step. | ||
This new version of the protocol uses 10uL PCR reactions, significantly reducing the reagent costs. | |||
Older version: [[Blackburn:Yeast_Colony_PCR|Blackburn Lab: Quick and Easy Yeast Colony PCR]] | Older version: [[Blackburn:Yeast_Colony_PCR|Blackburn Lab: Quick and Easy Yeast Colony PCR]] | ||
| Line 48: | Line 49: | ||
==Notes== | ==Notes== | ||
*Q-solution is critical for this protocol; the main ingredient in betaine. | |||
*Note that the primer concentration we use is about ten-times more than standard PCR protocols. | *Note that the primer concentration we use is about ten-times more than standard PCR protocols. | ||
*The amount of taq used in this updated protocol is more per volume than the original protocol, but still less overall. | |||
*The PCR product can be loaded onto agarose gels directly without addition of loading buffer. | *The PCR product can be loaded onto agarose gels directly without addition of loading buffer. | ||
*For restriction digestion of the PCR products, use 2uL of the PCR reaction in 20uL total volume. | *For restriction digestion of the PCR products, use 2uL of the PCR reaction in 20uL total volume. | ||
*The expected PCR product should be as short as possible. Anything less than 1kbp can be easily amplified. | *The expected PCR product should be as short as possible. Anything less than 1kbp can be easily amplified. | ||
*Generally, 2 distinct PCR products can be amplified in a single reaction. I do this to check the 5' and 3' ends of an integration in a single reaction (4 primers and different expected product sizes). This fails in about 5% of primer sets. | |||
==Contact== | ==Contact== | ||
[[Special:Emailuser/Tetm2002|Tet]] ([http://biochemistry.ucsf.edu/~blackburn/ Blackburn Lab]) | [[Special:Emailuser/Tetm2002|Tet]] ([http://biochemistry.ucsf.edu/~blackburn/ Blackburn Lab]) | ||
Revision as of 18:21, 20 March 2009
Back to Yeast Colony PCR
Back to Protocols
Overview
This is a quick and easy yeast colony PCR protocol that does not require zymolyase step. This new version of the protocol uses 10uL PCR reactions, significantly reducing the reagent costs.
Older version: Blackburn Lab: Quick and Easy Yeast Colony PCR
Materials
- Standard PCR machine, tubes
- Qiagen Taq Polymerase Kit with Q-solution
- A small yeast colony
- 0.02M NaOH (10uL per reaction)
- Multi-channel pipettes are very helpful.
Procedure
Yeast Cell Lysis
- Aliquot 10uL of 0.02M NaOH into PCR tubes.
- Using a sterile pipette tip, pick a small colony and resuspend in NaOH.
- If the solution is cloudy, you've added enough cells.
- Boil the samples on a PCR machine by incubating the tubes at 99C for 10 minutes.
- In the mean time, prepare the master mix for the PCR reaction.
- The boiled samples are stable at room temp for some time. Keep on ice or freeze for longer.
PCR
- Prepare the master mix solution containing:
- 2uL 5X Q-solution
- 1uL 10X PCR Buffer
- 0.2uL dNTPs (10mM each)
- 0.2uL foward primer (100uM)
- 0.2uL reverse primer (100uM)
- 0.1uL Taq
- 5.3uL ddH2O
- Aliquot 9uL of the master mix solution into fresh PCR tubes.
- Transfer 1uL of boiled samples to the master mix aliquots (a multi-channel pipette is helpful here).
- Run the following PCR cycle:
- 5 min at 95C
- 30 cycles of:
- 10 sec at 95C
- 10 sec at 50C (or appropriate annealing temperature)
- 1 min/kbp at 72C (I generally do 30 sec)
- 10 min at 72C
Notes
- Q-solution is critical for this protocol; the main ingredient in betaine.
- Note that the primer concentration we use is about ten-times more than standard PCR protocols.
- The amount of taq used in this updated protocol is more per volume than the original protocol, but still less overall.
- The PCR product can be loaded onto agarose gels directly without addition of loading buffer.
- For restriction digestion of the PCR products, use 2uL of the PCR reaction in 20uL total volume.
- The expected PCR product should be as short as possible. Anything less than 1kbp can be easily amplified.
- Generally, 2 distinct PCR products can be amplified in a single reaction. I do this to check the 5' and 3' ends of an integration in a single reaction (4 primers and different expected product sizes). This fails in about 5% of primer sets.
