Imperial College/5 September 2008
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Check OD600 readings more frequently during the exponential growth phase. This would ensure a more even distribution of data points for the calibration curve. | Check OD600 readings more frequently during the exponential growth phase. This would ensure a more even distribution of data points for the calibration curve. | ||
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+ | ==Dry Lab== | ||
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+ | ===Motility=== | ||
+ | *10 cells were tracked manually from Video 3. The graph of Z=Rexp(i*X) was plotted, R being the displacement and X being the angle between three consecutive coordinate points. It is hypothesised that tumbling will occur with very low displacement and high angle, while running occurs with large displacement and low angle. | ||
+ | *It was found that segmentation could not be done visually. However, using subtractive clustering analysis in the "Find Cluster Toolbox" in MATLAB, we were able to identify 2 centers of clustering, representing tumbling and running. However, more data has to be obtained to visually identify running and tumbling clusters. | ||
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+ | ===Microscopy=== | ||
+ | 2 microscopy sessions will be arranged for next week, on Wednesday and Friday. | ||
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+ | ===Genetic Circuit=== | ||
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+ | ===Growth=== | ||
{{Imperial/EndPage}} | {{Imperial/EndPage}} |
Revision as of 17:41, 5 September 2008
5 September 2008WetlabCloning
Colony CountingAfter re-calibrating our illuminator, it can now count colonies with a fair degree of accuracy. Manual addition and removal of points allows us to fine-tune the results, so we will use this method from now on. Trial Run: B. subtilis Growth CurveIn our second trial run to obtain growth and calibration curves for B. subtilis, we cultured our "B. subtilis" for two days and continously monitored the changes in OD600. By plotting OD600 against Time/h, we obtained the following growth curve for "B. subtilis". Calibration CurveFor six of the data points from the above growth curve, we plated 0.1 ml of B. subtilis on LB agar plates and performed serial dilution in order to obtain the colony-forming units (CFU per ml) for the corresponding OD600. However, we only managed to obtain two sets of valid data. The B. subtilis mixtures we plated for higher values of OD600 were too dilute, hence no bacterial growth were observed on these LB agar plates. Suggestions for Further ImprovementsPipette tips should be changed after each transfer of solution during serial dilution. This would avoid contamination and produce more accurate results for the calibration curve. Choose dilution factors for plating more carefully. It is not advisable to choose very high dilution factors e.g. those higher than 10E8. Check OD600 readings more frequently during the exponential growth phase. This would ensure a more even distribution of data points for the calibration curve. Dry LabMotility
Microscopy2 microscopy sessions will be arranged for next week, on Wednesday and Friday. Genetic CircuitGrowth
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