Team:Calgary/Notebook/Protocols/Process3

From 2011.igem.org

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<li type="1">Add the following to a 0.2mL thin-walled PCR tube sitting on ice:</li>
<li type="1">Add the following to a 0.2mL thin-walled PCR tube sitting on ice:</li>
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       <td><b>Component</b></td>
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       <td>RNA (40ng – 10ng to 1μg total RNA/rxn)</td>
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       <td>RNA (40ng – 10ng to 1μg total RNA)</td>
       <td>variable</td>
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<li type="1">Incubate in a PCR machine using the following conditions:</li>
<li type="1">Incubate in a PCR machine using the following conditions:</li>
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       <td><CENTER>5 min at 25°C</CENTER></td>
       <td><CENTER>5 min at 25°C</CENTER></td>

Revision as of 21:46, 27 September 2011


cDNA Synthesis/Reverse Transcription Reaction

  • Thaw all components (except the enzyme/buffer mix), mix thoroughly and centrifuge before use.
  • Add the following to a 0.2mL thin-walled PCR tube sitting on ice:
  • Component Volume
    RNA (40ng – 10ng to 1μg total RNA) variable
    Nuclease free water variable
    qScript cDNA synthesis mix 4 uL
    Final Volume 20 uL
  • Mix components by gently vortexing and then centrifuge 4s to collect contents.
  • Incubate in a PCR machine using the following conditions:
  • 5 min at 25°C
    30 min at 42°C
    5 min at 85°C
    Hold at 4°C
  • After completion of cDNA synthesis, us 1/20th of the first-strand reaction (2-4μL) for PCR amplification in water. Also do 2,3, and 4-fold dilutions of each sample to ensure that the PCRs will be within the primer linear range. Do 3 replicates of each PCR reaction. Run PCRs on a real-time PCR machine (e.g. ABI 7900).