Difference between revisions of "Part:BBa K1067001"
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The ration of expression between GFP SF and RFP can be tuned by switching out the RBS sequence upstream GFP SF. | The ration of expression between GFP SF and RFP can be tuned by switching out the RBS sequence upstream GFP SF. | ||
− | The brick have been tested with both a constitutive promoter and a inducible one. It seems like the ability to visualize,on a fluorescence microscope, that the GFP SF is exported to the periplasm, requires that there is only a very low concentration i GFP SF inside the cytoplasm. So when putting the brick downstream a constitutive promoter we could not distinguish between periplasm and cytoplasm on the fluorescence microscope. The same thing was apparent when a leaky inducible promoter (like [[BBa_K808000]]) was used. First after we used an optimized "tight" pBAD promoter we where able to distinguish clearly between cytoplasm and periplasm. | + | The brick have been tested with both a constitutive promoter and a inducible one. It seems like the ability to visualize,on a fluorescence microscope, that the GFP SF is exported to the periplasm, requires that there is only a very low concentration i GFP SF inside the cytoplasm. So when putting the brick downstream a constitutive promoter we could not distinguish between periplasm and cytoplasm on the fluorescence microscope. The same thing was apparent when a leaky inducible promoter (like [[Part:BBa_K808000]]) was used. First after we used an optimized "tight" pBAD promoter we where able to distinguish clearly between cytoplasm and periplasm. |
<span class='h3bb'>Sequence and Features</span> | <span class='h3bb'>Sequence and Features</span> |
Revision as of 16:27, 28 September 2013
Twin-arginine translocation reporter
This biobrick is a part composed of GFP SF exported to the periplasm by twin-arginine translocation (TAT) signal peptide. In addition this is transcriptionally fused to a RFP with RBS associated.
Usage and Biology
The twin-arginine translocation is a pathway for secretion of proteins in prokaryotes but can also be found in plants and archaea. The TAT pathway unlike the Sec pathway in E.coli transport the proteins after folding. This can be practical when working with proteins that cannot fold properly in the periplasm because of the different redox state compared to the cytoplasm.
The TAT pathway can also be used to export fluorescence protein to the periplasm. Advantages when using TAT pathway instead of Sec to export fluorescence protein is that the fluorophore cannot form under the redox state in the periplasm. While the TAT pathway transport an already folded protein that have formed a fluorophore the Sec pathway transport an unfolded state of the protein and the fluorophore will have to form inside the periplasm.
The ration of expression between GFP SF and RFP can be tuned by switching out the RBS sequence upstream GFP SF.
The brick have been tested with both a constitutive promoter and a inducible one. It seems like the ability to visualize,on a fluorescence microscope, that the GFP SF is exported to the periplasm, requires that there is only a very low concentration i GFP SF inside the cytoplasm. So when putting the brick downstream a constitutive promoter we could not distinguish between periplasm and cytoplasm on the fluorescence microscope. The same thing was apparent when a leaky inducible promoter (like Part:BBa_K808000) was used. First after we used an optimized "tight" pBAD promoter we where able to distinguish clearly between cytoplasm and periplasm.
Sequence and Features
- 10INCOMPATIBLE WITH RFC[10]Illegal PstI site found at 1225
- 12INCOMPATIBLE WITH RFC[12]Illegal PstI site found at 1225
- 21COMPATIBLE WITH RFC[21]
- 23INCOMPATIBLE WITH RFC[23]Illegal PstI site found at 1225
- 25INCOMPATIBLE WITH RFC[25]Illegal PstI site found at 1225
- 1000INCOMPATIBLE WITH RFC[1000]Illegal SapI.rc site found at 149
Test in E.coli