Team:SDU-Denmark/project-p

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An example of the results: <br><html>
An example of the results: <br><html>
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<object width="320"><param name="movie" value="http://www.youtube.com/v/HEKbYjyWNJc?hl=de&fs=1"></param><param name="allowFullScreen" value="true"></param><param name="allowscriptaccess" value="always"></param><embed src="http://www.youtube.com/v/HEKbYjyWNJc?hl=de&fs=1" type="application/x-shockwave-flash" allowscriptaccess="always" allowfullscreen="true" width="300"></embed></object> <object width="320"><param name="movie" value="http://www.youtube.com/v/bdg36HRHGRc?hl=de&fs=1"></param><param name="allowFullScreen" value="true"></param><param name="allowscriptaccess" value="always"></param><embed src="http://www.youtube.com/v/bdg36HRHGRc?hl=de&fs=1" type="application/x-shockwave-flash" allowscriptaccess="always" allowfullscreen="true" width="320" ></embed></object> </html><br><br>
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When played at real time speed these videos seem slow and not showing any tendency, though when played at 4 times the normal speed, the photosensor will seem to show slightly increased motility when exposed to blue light. Even though the bacteria displayed disappointing motility, we went on and did computer analysis on the videos by the help of the open source software [http://db.cse.ohio-state.edu/CellTrack/ "CellTrack"]. The paths that were mapped showed a longer traveling distance for the bacteria expressing the photosensor compared to the rest of the samples when exposed to blue light. This might indicate a decreased tumbling frequency, but the low motility of the bacteria along with the inadequacy of the cell track software, the results of this experiments was rendered unreliable and a new protocol had to be devised.<br><br>
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When played at real time speed these videos seem slow and not showing any tendency, though when played at 4 times the normal speed, the photosensor will seem to show slightly increased motility when exposed to blue light. Even though the bacteria displayed disappointing motility, we went on and did computer analysis on the videos by the help of the open source software [http://db.cse.ohio-state.edu/CellTrack/ "CellTrack"]. The paths that were mapped showed a longer traveling distance for the bacteria expressing the photosensor compared to the rest of the samples when exposed to blue light. We picked 10 bacteria from each sample, which amounts to 60 bacteria that were tracked. This is a rather small amount, but because of the time-intensive procedure a more thorough data analysis was not possible.
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[[Image:Team-SDU-Denmark-PSblue1.png |210px|thumb|Photosensor bacteria exposed to blue light]]
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[[Image:PSred sample 1 trajectory - Cell 1.png |210px|thumb|Photosensor bacteria exposed to red light (~580nm wavelength)]]
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[[Image:Team-SDU-Denmark-WTblue1.png |210px|thumb|Wildtype bacteria exposed to blue light]]
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This might indicate a decreased tumbling frequency, but the low motility of the bacteria along with the inadequacy of the cell track software, the results of this experiments was rendered unreliable and a new protocol had to be devised.<br><br>
'''4. Computerized analysis of the bacterial motility with the THOR prototype by [http://unisensor.dk/ Unisensor A/S] and the Unify software:'''<br>
'''4. Computerized analysis of the bacterial motility with the THOR prototype by [http://unisensor.dk/ Unisensor A/S] and the Unify software:'''<br>
For this experiment we changed our protocol for cultivating swimming bacteria in order to optimize their mobility (insert link til protocol)<br>
For this experiment we changed our protocol for cultivating swimming bacteria in order to optimize their mobility (insert link til protocol)<br>

Revision as of 16:05, 24 October 2010