Difference between revisions of "Part:BBa K568002"
Line 29: | Line 29: | ||
[[Image:Miller Assay Diagramm prozentual 12.9.2011.jpg|left|thumb|800px|Experiment 1: At RT. Tracking of beta-galactosidase expression over the course of five hours. As the Miller values at various points of time differed greatly, they were normalized to the "dark" sample of each point of time, which was set to 100 %.]] | [[Image:Miller Assay Diagramm prozentual 12.9.2011.jpg|left|thumb|800px|Experiment 1: At RT. Tracking of beta-galactosidase expression over the course of five hours. As the Miller values at various points of time differed greatly, they were normalized to the "dark" sample of each point of time, which was set to 100 %.]] | ||
− | <html>< | + | <html><p></html> |
[[Image:Miller Assay of blue light promoter + lacZ 4 h.jpg|left|thumb|800px|Experiment 2: Two growth temperatures: 37 °C and RT. Only values at 4 hours after splitting of the cultures and start of lighting in different conditions shown. Not shown: diagrams of experiment at other times, which exhibit the same tendency.]] | [[Image:Miller Assay of blue light promoter + lacZ 4 h.jpg|left|thumb|800px|Experiment 2: Two growth temperatures: 37 °C and RT. Only values at 4 hours after splitting of the cultures and start of lighting in different conditions shown. Not shown: diagrams of experiment at other times, which exhibit the same tendency.]] | ||
− | <html>< | + | <html><p></html> |
===Experimental Testing=== | ===Experimental Testing=== | ||
Revision as of 18:29, 21 September 2011
blue light promoter lacZ reporter part
blue light promotor + lacZ
This part is based on the blue light sensor (BBa_K238013) with an additional lacZ Gene. Part (BBa_B0034) was used as RBS.
Usage and Biology
The part provides the possibility to induce lacZ transcription via blue light irradiation.
Blue light leads to dimerisation of YcgF and binding of the repressor YcgE. The formation of the YcgE-YcgF complex leads to the unbinding of YcgE from the YcgZ promoter which activates the transcription of lacZ.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Functional Parameters
n/a | blue light promoter lacZ reporter part |
Induction ideally at 465 nm
The part works, however no complete on/off reaction was observed. Compared to a sample in the dark, cells under blue light (450 nm) expressed about 1.7 times as much beta-galactosidase. This was tested in a Miller Assay.
There is a temperature dependency, the blue light promotor works better at lower temperatures compared to 37 °C.
Experimental Testing
two cultures in LB medium:
blue light promoter - lacZ in DH5alpha with three incubation conditions: lighted in room light, dark and blue light (450 nm)
cpH8 in DH5alpha as a control under room light
conditions of bacterial growth: depending on the experiment, cells were grown at 23,5 °C (= room temperature, RT), or for comparisons at 37 °C and RT, in all cases shaken at 200 rpm, both cultures grown in the dark prior to the experiment, two hours before the experiments: cultures were subdivided and lit as described
incubation at 37 °C
Start of Assay:
- measurement of Abs(600nm)
- new eppi with 0,5 ml of Zbuffer + 20 μl of freshly prepared 0,1% SDS+ 40 μl of Chloroform (under fume hood) in 2 ml tube
- 50 μl (as a dilution 25 µl + 25 µl LB medium or 10 μl + 40 μl LB medium) of the samples are taken and transferred to the Zbuffer
- mix the solution by vortexing for 10 s (all samples with equal vortexing time)
- transferring of 100 μl supernatant to 96 well plate (for photometer)
- initiation of assay with 20 μl of ONPG (4mg/ml) = START
- incubation at 37 °C
- stop reaction with 50 μl of 1 M Na2CO3 = STOP
- measurement of Abs (420nm) and Abs (550nm)
for this diagram:
- calculation of Miller Units
- mean of triplicate measurement
- adjusted to 100 %
- corrected for outliers
reference
temperature dependency:
Natalia Tschowri, Susan Busse and Regine Hengge, "The BLUF-EAL protein YcgF acts as a direct anti-repressor in a blue-light response of Escherichia coli" Genes Dev. 2009 23: 522-534