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 {{{titre}}} In order to answer our question, we choose to create a new technology to bring two different DNA regions closer. As a results, we have designed a linking tool and a visualization tool. Here, we will expose you our experimental strategy, as well as, the biobricks we have designed to do so. Contents 1 Linking tool construction 2 Visualization tool construction 3 Characterization strategy 3.1 Tripartit Split-GFP and FRB/FKBP12 dimerization systems 3.2 Assessment of the minimal distance to have fluorescence 3.3 Assessment of the DNA regions brought closer 3.4 Gene expression tests Linking tool construction Visualization tool construction Characterization strategy Tripartit Split-GFP and FRB/FKBP12 dimerization systems Assessment of the minimal distance to have fluorescence Assessment of the DNA regions brought closer Gene expression tests
In order to answer our question, we choose to create a new technology to bring two different DNA regions closer. As a results, we have designed a linking tool and a visualization tool.
Here, we will expose you our experimental strategy, as well as, the biobricks we have designed to do so.
