(→Assessment of the minimal distance to have fluorescence) |
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{{Team:Paris_Saclay/project_header|titre=Experimental Strategy}} | {{Team:Paris_Saclay/project_header|titre=Experimental Strategy}} | ||
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==Assessment of the DNA regions brought closer== | ==Assessment of the DNA regions brought closer== | ||
− | In order to test our BDC tool, all the biobricks previously quoted in the [[Team:Paris_Saclay/Design#design|design]] page should be expressed in ''E. coli'', as well as all the sgRNAs | + | In order to test our BDC tool, all the biobricks previously quoted in the [[Team:Paris_Saclay/Design#design|design]] page should be expressed in ''E. coli'', as well as all the sgRNAs (corresponding to the target sequences and their cognate dCas9s). Later, the team would measure GFP fluorescence levels in growth medium with or without rapalog. The emission of any fluorescence by the tripartite split-GFP would validate our BDC tool '''[Fig4]''' as it would mean the two target sequences are close. |
[[File:T--Paris_Saclay--BDCtool_characterization.jpeg|frameless|center|upright=2.5|]] | [[File:T--Paris_Saclay--BDCtool_characterization.jpeg|frameless|center|upright=2.5|]] | ||
[[File:T--Paris_Saclay--BDCtool_characterization_continuation.jpeg|frameless|center|upright=2.5|]] | [[File:T--Paris_Saclay--BDCtool_characterization_continuation.jpeg|frameless|center|upright=2.5|]] | ||
− | <center>'''Figure 4''': BDC tool characterization by the visualization tool mechanism. '' | + | <center>'''Figure 4''': BDC tool characterization by the visualization tool mechanism. ''Using both tools together.''</center> |
=Gene expression tests= | =Gene expression tests= | ||
− | In order to test a possible influence of the spatial proximity in gene expression, we would test the expression of two different reporter genes. With the aim of having more accurate variation measurements, we should use enzymes such as | + | In order to test a possible influence of the spatial proximity in gene expression, we would test the expression of two different reporter genes. With the aim of having more accurate variation measurements, we should use enzymes such as luciferase or beta-galactosidase. |
{{Team:Paris_Saclay/project_footer}} | {{Team:Paris_Saclay/project_footer}} |
Latest revision as of 20:02, 19 October 2016