Team:Paris Liliane Bettencourt/Project/Population counter/Microfluidics

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Population counter : Microfluidics





Microfluidic devices





We have used microfluidics for the population counter project.Microfluidic devices are small polymeric chips with a hollow circuit imprinted inside.

When a microfluidic device is connected to a pump, it creates a liquid flow in the circuit channels. The liquid can be water or, as in our case, bacterial media. The channels are connected to small chambers. When the media flowing through the device contains bacteria, they can be trapped into these chambers by a pulse.









Microfluidic devices have several features that are important for our project :

  • The diameter of the channels is so small that physical laws that apply to the flow are different from those used on a usual scale. In fact, the flow is laminar and exchanges of molecules between two adjacent fluxes or compartments happens only by diffusion. This means that we can induce the cells in the chambers by adding arabinose to the flowong media and predict its concentration in the chambers by modeling its diffusion.
  • Cells can be trapped in small chambers so that they can be observed under a microscope. In gives us a possibility to see the phenotype of single cells. This means that if a cell has performed an excision and started producing RFP, we will be able to see this event among all other cells in the chamber.
  • The flux of nutriments is kept constant by the pump. At the same time, as the cells in the chamber divide, they are eluted into the channel. This creates an analogue to a chemostat when cells are kept in an exponential phase. This is crucial in order to be able to induce the integrase. In fact, the induction works best when the cells grow and divide, so the microfluidic device is a perfect solution for our construct.



When using the timer, we expect the concentration of AHL to reflect the number of events, but we must take into account that AHL can accumulate in the media. This would make our timer time-dependent rather that event-depended as we want it to be. Our solution is to use a microfluidic device.
It also allows us to better use the counter by calculating the ratio of red fluorescent to wild-type cells directly in the microfluidic device. This way we have the results on the go, without having to plate and wait for the colonies to grow.

This image was taken from the original paper and modified for our circuit.


References :
Oil micro-sealing: a robust micro-compartmentalization method for on-chip chemical and biological assays.
A. Yamada, F. Barbaud, L. Cinque, L. Wang, Q. Zeng, Y. Chen, D. Baigl Small, 2010, 6, 2169-2174