Team:ETH Zurich/Experiments 2
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As part of our system design, the diffusion of OHHL from the sender to the receiver is vital in order to express the different orthogonal hydrolases. | As part of our system design, the diffusion of OHHL from the sender to the receiver is vital in order to express the different orthogonal hydrolases. | ||
- | As our game mine grid is played on an agar petridish, diffusion experiments were carried out on agar plates with 1.5% agar to characterize speed and distance of diffusion , depending on different OHHL concentrations. The data from these experiments were used for the spatio-temporal model of the OHHL diffusion. The concentrations used in the experiments were based on the paper handling the evaluation of a focused library of OHHL and previous results with the plate reader experiment below.<br><br> | + | As our game mine grid is played on an agar petridish, diffusion experiments were carried out on agar plates with 1.5% agar to characterize speed and distance of diffusion , depending on different OHHL concentrations. The data from these experiments were used for the spatio-temporal model of the OHHL diffusion. ''The concentrations used in the experiments were based on the paper handling the evaluation of a focused library of OHHL and previous results with the plate reader experiment below.''<br><br> Double layer agar experiments were carried out to check diffusion of different concentrations of the OHHL. On a normal 1.5% agar plate, a second thinner layer of 0.7% agar inoculated with 100ul receiver cells. A 1.5ul drop of OHHL was added on the middle of the plate and the diffusion was observed over several hours. The OHHL concentrations tested were [10 uM], [100 uM] and [1 mM]. |
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Revision as of 09:08, 25 September 2013
Contents |
Quorum Sensing signaling molecule
N-3-OxoHexanoyl-l-Homoserine Lactone (OHHL) belongs to the family of Acylated Homoserine Lactones (AHL). These are signalling molecules that are secreted in small amounts in bacteria which are involved in the process of quorum sensing. In Vibrio fischeri AHL is involved in the regulation of the bioluminescent protein luciferase , where it acts as an auto-inducer.
In our project , we use the luxR-luxI quorum sensing model to drive communication from the sender to the receiver cells. The sender cells are designed to produce AHL from luxI. The AHL produced diffuses in the agar to reach the receiver cells consisting of luxR which inturn triggers the hydrolase expression in the non-mine colonies. The AHL diffusion is very important in that it drives the enzyme expression and via enzyme-susbtrate reaction gives colored product gives the player cue for the next logical move in the game.
Diffusion Tests of OHHL
As part of our system design, the diffusion of OHHL from the sender to the receiver is vital in order to express the different orthogonal hydrolases.
As our game mine grid is played on an agar petridish, diffusion experiments were carried out on agar plates with 1.5% agar to characterize speed and distance of diffusion , depending on different OHHL concentrations. The data from these experiments were used for the spatio-temporal model of the OHHL diffusion. The concentrations used in the experiments were based on the paper handling the evaluation of a focused library of OHHL and previous results with the plate reader experiment below.
Double layer agar experiments were carried out to check diffusion of different concentrations of the OHHL. On a normal 1.5% agar plate, a second thinner layer of 0.7% agar inoculated with 100ul receiver cells. A 1.5ul drop of OHHL was added on the middle of the plate and the diffusion was observed over several hours. The OHHL concentrations tested were [10 uM], [100 uM] and [1 mM].
In single layer agar diffusion experiments we placed receiver colonies on the Agar in a spiral pattern(Figure 1.2 and Figure 2.2) This set-up reflects more realisticly the later GAME BOARD. We also could test the influence of colonies onto the diffusion by placing them behind each others. We also included these findings into the model. 2 uL of OHHL were placed onto the central colony an the diffusion was observed.
After 5 hours of incubation we can interpret two things from images and grey values. First of all the background noise is relatively high and the two highest concentrations diffuse at the same distance until 5 hours of incubation. The lowest concentration (10 uM) diffuse less far than the higher concentrations, confirmed by the images and grey value analysis.</p>
After 23 hours of incubation the difference is clearly visible in the 365 nm exposure images as well as from grey values. As expected, depending on the [OHHL],the GFP expression in different colonies are activated more or less far away from origin (central colony).The background noise (due to leacky expression ) is stil relatively high bvut the triggered GFP expression is clearly visible, espacially in the grey scale 365nm wavelenght images.