One of the goal of our project is to assess the system bring DNA closer tool with the tri-partite GFP.
One of the goal of our project is to assess the system bring DNA closer tool with the tri-partite GFP.
To assess the effect of the bring DNA closer tool, we have to know the minimal distance needed to such fluorescence emission.
To assess the effect of the bring DNA closer tool, we have to know the minimal distance needed to such fluorescence emission.
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This question was also the core of our [[Team:Paris_Saclay/model#ElectroCompetent|modeling]] part which answer the question “what is the optimal distance between the two dCas9 for fluorescence?”
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This question was also the core of our [[Team:Paris_Saclay/model#modelisation|modeling]] part which answer the question “what is the optimal distance between the two dCas9 for fluorescence?”
This question is essential because the distance between the dCas9 may cause major problem. First, the steric hindrance and the dCas9 footprint may avoid the GFP assembling for target sequence too close. Second, the proteins size we have chosen avoid GFP assembling if there are too far away. As a result, fluorescence emission would be detect only if the proteins, as well as, the DNA regions are distant between a precise range of distance.
This question is essential because the distance between the dCas9 may cause major problem. First, the steric hindrance and the dCas9 footprint may avoid the GFP assembling for target sequence too close. Second, the proteins size we have chosen avoid GFP assembling if there are too far away. As a result, fluorescence emission would be detect only if the proteins, as well as, the DNA regions are distant between a precise range of distance.