Difference between revisions of "Part:BBa K819007"

Revision as of 07:18, 25 September 2012

Measurement device for Luminesensor

recA408 Promoter + B0030 + GFP + ssrA-tag

A fast degrading GFP ligated to the rear of a sulA promoter in 408 form (only recognizable by our LexA-VVD fusing protein, not by E.coli endogenous LexA). The sulA promoter promotes a gene which express SulA protein, a differentiation inhibitor, and was a member of the SOS regulon family. When co-transformed with our luminesensor plasmid into E.coli cell illuminated by blue light, the light will triger the dimerizaiton of the LexA408-VVD fusion protein and the dimerized LexA408 domain will bind the SOS box in 408 form in the SulA408 promoter to inhibit the transcription of the downstream gene so that no GFP will be expressed; if the environment is dark, the luminesensor will not dimerize and no supression of the promoter will occour, and GFP will be expressed.

Cells exposed to different light intensity expressing Luminesensor showed manifest light-repressed reporter gene transcription. As shown in the figure, all of the cells with dissimilar attenuators showed incredible repression efficiency (figure 1: luminance measurement of different attenuator).

Figure 1. luminance measurement of different attenuator

Sequence and Features

Assembly Compatibility:

10
INCOMPATIBLE WITH RFC[10]
Illegal SpeI site found at 850
12
INCOMPATIBLE WITH RFC[12]
Illegal SpeI site found at 850
21
COMPATIBLE WITH RFC[21]
23
INCOMPATIBLE WITH RFC[23]
Illegal SpeI site found at 850
25
INCOMPATIBLE WITH RFC[25]
Illegal SpeI site found at 850
1000
INCOMPATIBLE WITH RFC[1000]
Illegal BsaI.rc site found at 745

@@ Line 5: / Line 5: @@
 A fast degrading GFP ligated to the rear of a sulA promoter in 408 form (only recognizable by our LexA-VVD fusing protein, not by E.coli endogenous LexA). The sulA promoter promotes a gene which express SulA protein, a differentiation inhibitor, and was a member of the SOS regulon family. When co-transformed with our luminesensor plasmid into E.coli cell illuminated by blue light, the light will triger the dimerizaiton of the LexA408-VVD fusion protein and the dimerized LexA408 domain will bind the SOS box in 408 form  in the SulA408 promoter to inhibit the transcription of the downstream gene so that no GFP will be expressed; if the environment is dark, the luminesensor will not dimerize and no supression of the promoter will occour, and GFP will be expressed.<br/><br/>
-In order to determine whether the LexA-VVD(M135I) Luminesensor has enhanced reversibility in comparison to the original LexA-VVD, the temporal change of GFP expression level of dilated overnight culture of the strains LV-WT and LV-135 under blue light were measured at 2 hour intervals for 26 hours. As shown in figure below, the GFP expression level of both of the two strains began to rise after incubating at dark for about 10 hour. We speculated that the GFP expression level of the two strains is mainly determined by the equilibrium between GFP production and degradation and the dimerized LexA-VVD(WT) and LexA-VVD(135) dissociate in a shorter time scale compared to the time needed to establish the equilibrium of the GFP production and degradation.
+Cells exposed to different light intensity expressing Luminesensor showed manifest light-repressed reporter gene transcription. As shown in the figure, all of the cells with dissimilar attenuators showed incredible repression efficiency (figure 1: luminance measurement of different attenuator). <br/><br/>
+<html>
+<a href="https://static.igem.org/mediawiki/2012/a/a8/Peking2012_Luminesensor_sensitivity_2.png"target="blank"><img src="http://https://static.igem.org/mediawiki/2012/a/a8/Peking2012_Luminesensor_sensitivity_2.png" style="width:600px;margin-left:180px"  ></a>
+<p style="text-align:center">Figure 1. luminance measurement of different attenuator</p>
+<br/><br/>
+</html>
 <!-- Add more about the biology of this part here