Team:Warsaw/Calendar-Main/16 May 2008

From 2008.igem.org

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<li>Electrophoresis to estimate the concentration of isolated DNA.</li>
<li>Electrophoresis to estimate the concentration of isolated DNA.</li>
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<li> <a href="https://2008.igem.org/wiki/index.php?title=Wiki/Team:Warsaw/protocols#pcr">PCR</a> - translation fusion: AID + T7 RNA-polymerase - optimization (annealing temperature gradient 60&deg;C - 80&deg;C). Fig. 1.<br>
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<li> <a href="https://2008.igem.org/wiki/index.php?title=Wiki/Team:Warsaw/protocols#pcr">PCR</a> - translational fusion: AID + T7 RNA-polymerase - optimization (annealing temperature gradient 60&deg;C - 80&deg;C). Fig. 1.<br>
Primers: <br>
Primers: <br>
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Template DNA: purified PCR products from <a href="https://2008.igem.org/Team:Warsaw/Calendar-Main/16_May_2008">16 May</a> - AID and T7 RNA-polymerase for translation fusion <br>
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Template DNA: purified PCR products from <a href="https://2008.igem.org/Team:Warsaw/Calendar-Main/16_May_2008">16 May</a> - AID and T7 RNA-polymerase for translational fusion <br>
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35 cycles <br>
35 cycles <br>
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</li>
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<li> Optimization of <a href="https://2008.igem.org/wiki/index.php?title=Wiki/Team:Warsaw/protocols#pcr">PCR</a> - translation fusion: AID + T7 RNA-polymerase - MgCl<sub>2</sub> concentration and number of cycles. Fig. 2.<br>
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<li> Optimization of <a href="https://2008.igem.org/wiki/index.php?title=Wiki/Team:Warsaw/protocols#pcr">PCR</a> - translational fusion: AID + T7 RNA-polymerase - MgCl<sub>2</sub> concentration and number of cycles. Fig. 2.<br>
Primers: <br>
Primers: <br>
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Template DNA: purified PCR products from <a href="https://2008.igem.org/Team:Warsaw/Calendar-Main/16_May_2008">16 May</a> - AID and T7 RNA-polymerase for translation fusion <br>
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Template DNA: purified PCR products from <a href="https://2008.igem.org/Team:Warsaw/Calendar-Main/16_May_2008">16 May</a> - AID and T7 RNA-polymerase for translational fusion <br>
Annealing temperature: 73&deg;C<br>
Annealing temperature: 73&deg;C<br>
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<var>Fig. 1. PCR products - optimalization of annealing temperature: 1-DNA ladder; <br>2-annealing temperature 60&deg;C, 8-annealing temperature 80&deg;C</var>
<var>Fig. 1. PCR products - optimalization of annealing temperature: 1-DNA ladder; <br>2-annealing temperature 60&deg;C, 8-annealing temperature 80&deg;C</var>
<img src="https://static.igem.org/mediawiki/2008/d/d1/Pcr_aid_t7_WAW2.jpg"width=350/>
<img src="https://static.igem.org/mediawiki/2008/d/d1/Pcr_aid_t7_WAW2.jpg"width=350/>
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<var>Fig. 2. PCR products - optimalization of MgCl<sub>2</sub> concentration and number of cycles: <br>
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<var>Fig. 2. PCR products - optimization of MgCl<sub>2</sub> concentration and number of cycles: <br>
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<ol>
<li style="font-family: monospace; margin-left: 3cm">
<li style="font-family: monospace; margin-left: 3cm">

Revision as of 15:15, 11 October 2008

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PCRs for fusions

Michał K.

  1. Gel electrophoresis (15 May PCR's) and DNA isolation from proper bands (600 bp for AID lane and 2700 bp for T7 polymerase lanes).
  2. Electrophoresis to estimate the concentration of isolated DNA.
  3. PCR - translational fusion: AID + T7 RNA-polymerase - optimization (annealing temperature gradient 60°C - 80°C). Fig. 1.
    Primers:
    AIDlNrH and T7pXbSal
    Template DNA: purified PCR products from 16 May - AID and T7 RNA-polymerase for translational fusion
    Elongation time: 4 minutes
    35 cycles
  4. Optimization of PCR - translational fusion: AID + T7 RNA-polymerase - MgCl2 concentration and number of cycles. Fig. 2.
    Primers:
    AIDlNrH and T7pXbSal
    Template DNA: purified PCR products from 16 May - AID and T7 RNA-polymerase for translational fusion
    Annealing temperature: 73°C
    Elongation time: 4 minutes
  5. Gel electrophoresis of PCR products.

Fig. 1. PCR products - optimalization of annealing temperature: 1-DNA ladder;
2-annealing temperature 60°C, 8-annealing temperature 80°C
Fig. 2. PCR products - optimization of MgCl2 concentration and number of cycles:
  1. DNA ladder;
  2. 2 μl MgCl2, 20 cycles;
  3. 3 μl MgCl2, 20 cycles;
  4. 2 μl MgCl2, 25 cycles;
  5. 3 μl MgCl2, 25 cycles;
  6. 2 μl MgCl2, 30 cycles;
  7. 3 μl MgCl2, 30 cycles;
  8. 2 μl MgCl2, 35 cycles;
  9. 3 μl MgCl2, 35 cycles;