Part:BBa_K1045010:Experience
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Applications of BBa_K1045010
We used this part in our DarR reporter system BBa_K1045017. BBa_K1045010 seemed to be functional as our characterization experiments of BBa_K1045017 suggested. In this system, gfp is placed under the control of the DarR operator BBa_K1045000. We saw that GFP expression was repressed when E. coli harbored a construct carrying a DarR expression unit with BBa_K1045010 as an RBS. The decreased GFP fluorescence indicated that DarR was expressed. These characerization experiments are described in a detailed way in the sections below.
Microscope Data
For characterization, E. coli BL21 was transformed either with BBa_K1045017 or with BBa_K1045013 as a control. Both strains were grown in the abscence of c-di-AMP and subjected to fluorescence microscopy.
In BBa_K1045013, gfp is placed downstream of a strong promoter and the DarR operator. This vector does not encode for DarR. The strong fluorescence of the cells transformed with BBa_K1045013 (Fig. 1 top) indicated that GFP was expressed. However, when transformed with BBa_K1045017 (Fig. 1 bottom), the cells showed almost no fluorescence. In contrast to BBa_K1045013, BBa_K1045017 encodes for DarR. The low fluorescence suggested that DarR was expressed and active as a repressor down-regulating gfp transcription. Hence, the promoter BBa_K1045011 and the RBS BBa_K1045010 used for DarR expression seem to be functional.
Experimental details: E. coli cells were grown in LB medium until log phase. A culture aliquot was prepared on slides covered with 1 % agarose (in water) and the cells observed under the fluorescence microscope. For all images, the same exposure time was used. Microscope: Axioskop 40 FL fluorescence microscope; Camera: digital camera AxioCam MRm; Software for image processing: AxioVision Rel version 4.8 (Carl Zeiss, Göttingen, Germany); Objective: Neofluar series objective (Ă100 primary magnification); Filter set: eGFP HC-Filterset (band-pass [BP] 472/30, FT 495, and long-pass [LP] 520/35; AHF Analysentechnik, TĂŒbingen, Germany) for GFP detection.
Characterization of the Reporter System in a Multi-Well Plate Reader
We furthermore analyzed the growth and the fluorescence over time of the BL21 E. colis we transformed with the DarR reporter system construct BBa_K1045017. As a control, we employed E. coli cells harboring the BBa_K1045013 plasmid. This plasmid carries only the GFP expression unit with a strong promoter and the DarR operator. It does not encode for DarR.
Using the plate reader, we quantified the strength of the DarR construct in E. coli. A dilution series of c-di-AMP (0, 50, 100, 150, 300, 500 and 1000 nmol c-di-AMP) was used to test the reaction of the DarR reporter system to the nucleotide.
Fig. 2 shows the growth curves recorded via the optical density (OD) at the wavelength 600 nm. The GFP fluorescence was measured at 509 nm over the time, as well. Since the fluorescence depends on the growth of the E. coli cells, the GFP fluorescence was normalized to the OD at 600 nm for each time point (Fig. 3). All graphs show the mean value of three technical replicates of one biological replicate. The error bars indicate the standard deviation.
Experimental setup: total time 21 h; 15 min measurement interval; 37°C, medium shaking; 96-well titer plate; Synergy Mx Monochromator-Based Multi-Mode Microplate Reader; Gen5 V2.01
As in the microscope experiments described above, the expression of the reporter was prevented (even without c-di-AMP), when DarR was encoded in the vector. Hence, DarR seemed to be expressed via the regulatory parts BBa_K1045011 and BBa_K1045010.
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