Team:EPF-Lausanne/Notebook/July2011

From 2011.igem.org

(Difference between revisions)
(Thursday, 21 July 2011)
(Friday, 22 July 2011)
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[[File:EPFL-2011-07-22_Gibson_TD_PCR_reporter.jpg|thumb|right|*EPIC FAIL* - Touchdown PCR to amplify the fragments for Gibson assembly of the two reporter plasmids]]
[[File:EPFL-2011-07-22_Gibson_TD_PCR_reporter.jpg|thumb|right|*EPIC FAIL* - Touchdown PCR to amplify the fragments for Gibson assembly of the two reporter plasmids]]
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'''Touchdown PCR''' was run on yesterday's samples, using the Bio-Rad thermal cycler. The thermal cycles were designed according to the iProof datasheet, using touchdown PCR recommendations from Korbie & Mattick (2008) [1]. Since the primer melting temperatures range from 47° C to 60° C, the cycle step the annealing temperature down from 65° C to 45° C over 20 cycles in constant decrements. It then repeats another 20 cycles at the 45° C floor temperature. Elongation lasts 40 s, following Bio-Rad's recommendation of 15 s/kb, for a 2400 kb product. The other parameters are as usual for iProof polymerase.
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'''Touchdown PCR''' was run on yesterday's samples, to amplify the '''fragments for Gibson assembly of the reporter plasmids''', using the Bio-Rad thermal cycler. The thermal cycles were designed according to the iProof datasheet, using touchdown PCR recommendations from Korbie & Mattick (2008) [1]. Since the primer melting temperatures range from 47° C to 60° C, the cycle step the annealing temperature down from 65° C to 45° C over 20 cycles in constant decrements. It then repeats another 20 cycles at the 45° C floor temperature. Elongation lasts 40 s, following Bio-Rad's recommendation of 15 s/kb, for a 2400 kb product. The other parameters are as usual for iProof polymerase.
The PCR yielded absolutely '''no product'''. To further investigate the cause of failure, the PCR has been repeated using the Roche Hifi+ polymerase, adapting the thermal cycles to the new polymerase. In a desparate move, the old PCR products were re-used for an almost-identical run on the Eppendorf cycler, with slightly longer elongation and denaturation steps (50 s and 7 s, respectively).
The PCR yielded absolutely '''no product'''. To further investigate the cause of failure, the PCR has been repeated using the Roche Hifi+ polymerase, adapting the thermal cycles to the new polymerase. In a desparate move, the old PCR products were re-used for an almost-identical run on the Eppendorf cycler, with slightly longer elongation and denaturation steps (50 s and 7 s, respectively).

Revision as of 15:27, 22 July 2011