Team:SDU-Denmark/project-p

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(K343007)
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Another deviation from the protocol PS1.1 is that the culture was inoculated at the center of the plate, instead one colony each was inoculated in the center of the light exposed and dark half respectively. This would give us more information on how the bacteria would behave when directly exposed to either the dark or light surroundings, instead of the gradient that was present in the first experiment.<br>
Another deviation from the protocol PS1.1 is that the culture was inoculated at the center of the plate, instead one colony each was inoculated in the center of the light exposed and dark half respectively. This would give us more information on how the bacteria would behave when directly exposed to either the dark or light surroundings, instead of the gradient that was present in the first experiment.<br>
From the results of the first experiment we expected the culture containing BBa_K343007 to spread out in the dark and not to spread when exposed to light. The wildtype bacteria should spread out evenly no matter if exposed to light or not and the non-motile strain (DH5alpha) should not move regardless of the light conditions. Our expectations from the first experiment were fulfilled, as the bacteria behaved exactly as expected. This made it possible to conclude that the photosensor has an effect on the bacteria's tumbling frequency, but if it does in fact reduce the tumbling is not possible to say, since both an increased and reduced tumbling frequency will look alike.<br>
From the results of the first experiment we expected the culture containing BBa_K343007 to spread out in the dark and not to spread when exposed to light. The wildtype bacteria should spread out evenly no matter if exposed to light or not and the non-motile strain (DH5alpha) should not move regardless of the light conditions. Our expectations from the first experiment were fulfilled, as the bacteria behaved exactly as expected. This made it possible to conclude that the photosensor has an effect on the bacteria's tumbling frequency, but if it does in fact reduce the tumbling is not possible to say, since both an increased and reduced tumbling frequency will look alike.<br>
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Left to right: MG1655, Photosensor bacteria, DH5alpha (left half was in the dark, right half was exposed to light)<br>
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[[Image:Team-SDU-Denmark-MG1655.JPG|210px|MG1655]] [[Image:Team-SDU-Denmark-Photosensor.JPG|210px|Photosensor]] [[Image:Team-SDU-Denmark-DH5alpha.JPG|210px|DH5alpha]]<br>
After this we could conclude that the part had an impact on the bacterial motility, but we had to find out which. This lead us to our next experiment, which was intended for determining what happened to the tumbling frequency:<br>
After this we could conclude that the part had an impact on the bacterial motility, but we had to find out which. This lead us to our next experiment, which was intended for determining what happened to the tumbling frequency:<br>
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<br>[[Image:Team-SDU-Denmark-MG1655.JPG|210px|MG1655]] [[Image:Team-SDU-Denmark-Photosensor.JPG|210px|Photosensor]] [[Image:Team-SDU-Denmark-DH5alpha.JPG|210px|DH5alpha]]
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'''3. Videomicroscopy and computer analysis:'''<br>
'''3. Videomicroscopy and computer analysis:'''<br>

Revision as of 15:01, 24 October 2010