Toggle navigation Home Team Team Media Collaborations Sponsors Acknowledgements Project Background Design CRISPR/Cas9 Strategy Experiments Notebook Results Perspective Interlab Study Parts Parts Basic Parts Composite Parts Human Pratices Overview Societal Issues of CRISPR/Cas9 Responsible Research and Innovation GMO regulation Integrated Practices Engagement Model Attributions Safety Contents 1 Tuesday 9th August 1.1 Lab work 1.1.1 Visualization 1.1.1.1 Heat shock transformation 1.1.1.2 Phusion PCR on pPS16_006 and pPS16_007 Tuesday 9th August Lab work Visualization Heat shock transformation By Charlène and Terrence For 1.2, 4.2, SgNm, SgSt1, Detection, FRB and FKBP gBlocks, the results of the sequencing were not as expected.So, we transformed pPS16_002, pPS16_008, pPS16_010, pPS16_011, pPS16_012, pPS16_013 and pPS16_014 in DH5a. We followed the usual protocol. 50µL of cells were streaked on LB + Amp (50µg/mL) + IPTG + xGal. Phusion PCR on pPS16_006 and pPS16_007 By Caroline The PCR was carried out following the usual protocol adapted to 50µL and with a TM at 72°C. The specific primers for each parts were using. The products were put to migrated on a 0.8%agarose gel with BET.
By Charlène and Terrence
For 1.2, 4.2, SgNm, SgSt1, Detection, FRB and FKBP gBlocks, the results of the sequencing were not as expected.So, we transformed pPS16_002, pPS16_008, pPS16_010, pPS16_011, pPS16_012, pPS16_013 and pPS16_014 in DH5a. We followed the usual protocol. 50µL of cells were streaked on LB + Amp (50µg/mL) + IPTG + xGal.
By Caroline
The PCR was carried out following the usual protocol adapted to 50µL and with a TM at 72°C. The specific primers for each parts were using. The products were put to migrated on a 0.8%agarose gel with BET.
