Team:EPF Lausanne/Project droso
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- | Plating the bacteria and quantizing the bacteria present in the flies’ gut | + | ==Plating the bacteria and quantizing the bacteria present in the flies’ gut== |
With this last experiment we wanted to ascertain wether asaia persisted in drosophila and quantize how many asaia were present in the drosophila’s gut after 3h, 24h and 48h. | With this last experiment we wanted to ascertain wether asaia persisted in drosophila and quantize how many asaia were present in the drosophila’s gut after 3h, 24h and 48h. |
Revision as of 22:09, 24 October 2010
Contents |
Experiments on Drosophilia
The final goal of our project is for our modified Asaia to survive and produce proteins in the mosquito's gut. Working with mosquitoes however requires special equipment that we do not have at EPFL, and we wondered if we could work on another insect which is less demanding. We therefore turned towards Drosophila, commonly known as the fruit fly, which is much easier to work with.
Considering the fact that bacteria that live in the guts of insects are not very common, we assumed that there was a fair chance that Asaia could persist in Drosophila and that we could use the it as an alternative to mosquitos for our basic experiments.
Using Drosophila melanogaster we aimed to address two questions: i) Is Asaia pathogenic for Drosophila? ii) Is Asaia able to colonize the Drosophila gut and persist?
Our main results
Toxicity of Asaia
To find out if Asaia is toxic for Drosophila and if it can persist, we fed Asaia to flies. If we fed Asaia that expressed GFP to our flies, we could observe the fluorescent bacteria in the gut of the flies (Figure 1).
Then we moved on to find out more quantitatively if Asaia was toxic for our flies. We infected Drosophila with different bacterial strains, a pathogenic control starin (P. entomophila), a non-pathogenic control strain (Ecc 15) and our Asaia bacteria. For these experiments we used two different fly strains (Oregon and Relish). The strain Relish does not have an immune system. We found that Asaia does not cause significantly more deaths than the non-pathogenic bacteria or in the uninfected control (Figure 2).
Persistancy essay
Observing the bacteria in vivo
We infected flies with asaia expressing GFP and observed them under a microscope with a GFP filter over a period of three days. We hoped this would enable us to determine wether the asaia were persistent in the flies.
Controls: In addition to the GFP filter we observed the flies with a DSR filter to discard natural fluorescence. We worked with both oregon and relish flies, and we infected an extra set with Pe and ECC (positive controls). Negative control: flies not infected with GFP expressing bacteria?
Results: picture link
Conclusion: It is hard to make a good conclusion with the results of these experiments, primarily because the flies’ eggs are naturally fluorescent and it was not always obvious to determine the origin of the fluorescence.
The results were negative for a the experience and we repeteated it 4 times.
graphe des drosophiles
Plating the bacteria and quantizing the bacteria present in the flies’ gut
With this last experiment we wanted to ascertain wether asaia persisted in drosophila and quantize how many asaia were present in the drosophila’s gut after 3h, 24h and 48h.
To be able to “count” the number of asaia at these three different periods of time, we had to retrieve the bacteria inside the flies, plate them and after incubation count the number of colonies present.
To do this we disinfected the exterior of the flies by washing them with ethanol (for less than five seconds) and then rinsing them with water. The flies were then crushed in the medium corresponding to the bacteria we were interested in (i.e: Gly+LB for asaia, LB for Pe, etc). We then did a serial dilution eleven times with a factor of ten with the crushed flies, and plated each dilution with antibiotics to specifically select the bacteria we were interested in.