Team:iHKU/device
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Revision as of 12:36, 29 October 2008
Novel DevicesA. Movie TakerAs the ring of void pattern was repetitively obtained, we get more and more concerned about the detailed formation process of this novel pattern. Several questions were arisen in our experiment: 1) How soon will this ring pattern be formed? 2) Was the ring formed once the bacteria get there or formed later on when cells have grow evenly on the plate? 3) What is the difference of the process when our programmed cells are compared to the wild type? Therefore we tried to take pictures periodically after dropping the cell on the plates. It is a nontrivial process since we have to strictly control the quality of the photos as well as the time points on which the photo has been taken. These data are all crucial for a precise mathematical modeling. We have gone all the way through five versions of the picture capturing apparatuses. One thing worth noting is that, this procedure itself is exploration and creation in an unknown area for us. We have solved two major problems we encountered during this development, 1) How to capture high-quality pictures with appropriate light source and a clear back ground. 2) How to do the automated capturing without human interfering, since it usually take 15 to 20 hours for the pattern to be developed. 4 versions of devices Version A: Advantage: after all, a standard for taking plate photos is developed, and it is better than nothing. Disadvantage: the device is very simple and crude. Since the tapes doesn’t always make the tripod firmly fixed on the foam base, slight differences are observed each time we take photos.
Version B: Advantage: the camera is fixed firmly on the holder, so the differences between plate positions and sizes from different photos are minimized. Disadvantage: environmental light change is the main factor that has great influence on the brightness of the plates. Sometimes it is difficult for us to compare the colors and densities of the pattern from the photo source.
Version C: Advantage: very slight effects from the light source change are observed. Also, with the help of computer, we are able to take cell growth movie for a single plate automatically. Disadvantage: only one plate can be placed in the box for movie taking, so the efficiency is very low as we have a comparatively great amount of plates movies to take in a relatively short time.
Version D: B. Reflection spectrophotometerThis part of data analysis is trying to analyze the relationship between plate brightness, cell concentration, and OD. Furthermore, we want to try out if plate brightness can be directly related to growth curve measurement. O = the opacity per-unit
Background light noise (solved): use black curtain as plate background. Also, black box is used to block other light source in order to keep consistent and unified light source. Static light intensity (solved): firm light source intensity and distance to the plate each time. Reflection, Refraction problem (need more work): The problem is that the brightness level we measured is from the light collected now is the reflection from light source not vertical to the plate. This method may relate more to the reflection of the surface cell, but less to the brightness of the cells inside Agar gel. We are planning to change the light source go in vertically from the other side of the plate, and the diascoptic light is more accurately related to the total cell number on the plate.
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