Team:Newcastle/Characterisation
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+ | At time point 1, colonies did not have much Gfp and spores. When it is looked to the sample taken at time point 5, spores inside the mother cells can be noticed. As it can be seen there are many spores. Original copy of KinA also works and make the cells sporulation. However as it can be seen there are lots of cells with Gfp about to sporulate. Hence we can conclude that teh sporulation was mainly triggred by our device. | ||
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Revision as of 16:26, 20 October 2009
Contents |
Characterization of IPTG inducable KinA sporulation trigger device
We successfully characterized IPTG inducible KinA sporulation trigger device. Although Spo0A is the master regulator of sporulation in B. subtilis, only a gradual increase in phosphorylated Spo0A can trigger the sporulation(1). We achieved this scenario by artificially inducing KinA by IPTG to participate in a multicomponent phosphorelay. We used microscopy to verify our results.
Our synthesised device was cloned into pgfp-rrnb integration vector. By placing our device just before the Gfp CDS in the integration vector, we hoped to see GFP when we induce the device with IPTG. However for IPTG to work, we needed LacI expressed in the cells.
When we first did our transformation for B. subtilis we forgot this link and we got similar results with cells induced with IPTG and not induced with IPTG. Obviously LacI was not present in the cells and adding IPTG did not make any difference.
We then used a Bacillus subtilis mutant, BFS687, which has pmutin4 integrated into the chromosomal DNA (2). We selected this mutant especially since it does not have any phenotype. Since pmutin4 has LacI gene, we were able to get LacI expressed in the cells. We successfully transformed the mutant with pgfp-rrnb. AmyE regions in the integration vector provided a double crossover into the chromosome. As a result of this crossover, cells loose amyE gene and cannot break starch. When transformed colonies are plated into starch plates, the transformed colonies can be seen without any halos around them.
We then selected two transformed colonies from the starch plate and used them to induce sporulation by adding IPTG.
To select the transformed colonies we prepared our plates with LB + Erythromycin + Chloramphenicol. Chloramphenicol was used to select pgf-rrnb transformations and Erythromycin was used to select the colonies with pmutin4. Hence by adding these two antibiotics we made sure that we were using BFS867 mutants transformed with pgfp-rrnb integration vector hence with our biobrick.
Concentrations used to characterize our device:
IPTG : 1mM Erythromycin :0.3ug/ml Chloramphenicol: 5ug/ml
Experiment Overview
Each 10ul of overnight cultures wassplit into two flasks with 60ul of LB+Em+CHL. Every half an hour we meaured the optical density of the cells to get the growth curve of the cells. We also stored samples at each time point. We added IPTG after an hour we started to our experiments. We also used wild type B. subtilis and wild type cells transformed with pgfp-rrnb as the controls.
After time point 5, before they reach to stationary phase, we got the samples from time point 1 and time point 5 and prepared them for microscopy by resuspending the cells in SMM medium.
Growth Curves
Shows Wild type B. subtilis, WT. B. Subtilis transformed with pgfp-rrnb, and BFS867 mutant transformed with pgfp-rrnb. (+ sign represents IPTG added) | |
Growth curve of the mutant with and without IPTG | |
Microscopy results
At time point 1, colonies did not have much Gfp and spores. When it is looked to the sample taken at time point 5, spores inside the mother cells can be noticed. As it can be seen there are many spores. Original copy of KinA also works and make the cells sporulation. However as it can be seen there are lots of cells with Gfp about to sporulate. Hence we can conclude that teh sporulation was mainly triggred by our device.
- Fujita, M. and R. Losick (2005). "Evidence that entry into sporulation in Bacillus subtilis is governed by a gradual increase in the level and activity of the master regulator Spo0A." Genes & Development 19(18): 2236-2244.
- Retrieved 20/10/2009, from http://bacillus.genome.jp/bsorf_mutant_list/Page12.htm
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