Team:EPF-Lausanne/Protocol/PCR

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PCR is a reaction that makes it possible (and relatively easy) to amplify
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a certain region of DNA. The first step is the selection of that region
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(and the design of the relevant primers). Primer design can be done by hand, or by
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using our [[Team:EPF-Lausanne/PrimerDesignHelper|Primer Design Helper]]. Once
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done, order the primers (in our case, we ordered from them [http://www.idtdna.com/ IDT]).
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When you've received the primers, prepare them and make sure you've got your
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PCR kit (we used the "Phusion® High-Fidelity DNA Polymerase"). Start preparing your
 +
master mix, the composition for one tube is:
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1X Mastermix 20μl reaction, add in this order
1X Mastermix 20μl reaction, add in this order
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|Water
|Water
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| 20-x
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| Complete to total volume of 20μl
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|HF-Buffer (5x)
|HF-Buffer (5x)
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Multiply everything by the number of reactions you want to do +1.
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Prepare one or two extra tubes-worth of reagent (you'll use some liquid on the walls of your tips).
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Take the HF-Buffer, DMSO and dNTPs out the of the freezer in advance so it all has time to thaw.
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Take the Phusion-HF polymerase out of the freezer only when adding it and put it right back again.
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Once you've finished, you should run the resulting products on a [[Team:EPF-Lausanne/Protocol/Gel|gel]]
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If the reactions have different primers and/or template, add the polymerase right after the dNTPs, slit the mastermix and add the rest.
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to check if everything went as planned.
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'''Tm:'''
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== Tips ==
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The primers must have similar Tms. Always chose the lower one. If not sure about the Tm, perform a gradient PCR to find out.
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* Thaw the HF-Buffer, DMSO and dNTPs before making the mastermix.
 +
* Avoid taking the Phusion-HF polymerase out of the freezer (only take it out briefly when you need to add it).
 +
* If the reactions have different primers and/or template, add the polymerase right after the dNTPs, split the mastermix and add the rest.
 +
* Don't forget positive and negative controls
 +
* Primers should have similar Tms (less than 5°C).
 +
* Primer Tm calculation is a less exact science than it should be (just test several tools and compare their results). If you're not sure what the correct Tm is, consider using a gradient PCR.
 +
* Avoid primers with strong secondary structures.
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* PCR can introduce mutations. Don't forget to sequence your final product (this could be your final plasmid): you really don't want to lose a few weeks because of a "corrupt" plasmid.
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Latest revision as of 08:38, 25 September 2012

Protocol: PCR


PCR is a reaction that makes it possible (and relatively easy) to amplify a certain region of DNA. The first step is the selection of that region (and the design of the relevant primers). Primer design can be done by hand, or by using our Primer Design Helper. Once done, order the primers (in our case, we ordered from them [http://www.idtdna.com/ IDT]).

When you've received the primers, prepare them and make sure you've got your PCR kit (we used the "Phusion® High-Fidelity DNA Polymerase"). Start preparing your master mix, the composition for one tube is:

1X Mastermix 20μl reaction, add in this order

Reagent Volume [μl]
Water Complete to total volume of 20μl
HF-Buffer (5x) 4
DMSO (optional) 0.6
dNTPs 0.4
Forward primer (50μM) 0.2
Reverse primer (50μM) 0.2
Template (10ng/μl) 0.5
Phusion HF polymerase 0.2

Prepare one or two extra tubes-worth of reagent (you'll use some liquid on the walls of your tips).

Once you've finished, you should run the resulting products on a gel to check if everything went as planned.

Tips

  • Thaw the HF-Buffer, DMSO and dNTPs before making the mastermix.
  • Avoid taking the Phusion-HF polymerase out of the freezer (only take it out briefly when you need to add it).
  • If the reactions have different primers and/or template, add the polymerase right after the dNTPs, split the mastermix and add the rest.
  • Don't forget positive and negative controls
  • Primers should have similar Tms (less than 5°C).
  • Primer Tm calculation is a less exact science than it should be (just test several tools and compare their results). If you're not sure what the correct Tm is, consider using a gradient PCR.
  • Avoid primers with strong secondary structures.
  • PCR can introduce mutations. Don't forget to sequence your final product (this could be your final plasmid): you really don't want to lose a few weeks because of a "corrupt" plasmid.