Team:Valencia/WetLab/YeastTeam

From 2009.igem.org

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In summary, we designed a yeast-based system for the production of light through a jellyfish protein sensitive to calcium. Since calcium enters the cytoplasm through voltage channels, it is theoretically possible to have light emission under electrical control.  If this was possible, a biological display made of aequorin-expressing yeasts as living pixels could be constructed.
In summary, we designed a yeast-based system for the production of light through a jellyfish protein sensitive to calcium. Since calcium enters the cytoplasm through voltage channels, it is theoretically possible to have light emission under electrical control.  If this was possible, a biological display made of aequorin-expressing yeasts as living pixels could be constructed.
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Some interesting bibliography used to develop this part of the project and that can be very interesting is found [https://2009.igem.org/wiki/index.php?title=Team:Valencia/experimentalbiblio here]
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Some interesting bibliography used to develop this part of the project and that can be very interesting is found [https://2009.igem.org/wiki/index.php?title=Team:Valencia/experimentalbiblio here]
 
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Revision as of 22:57, 21 October 2009



WetLab Overview


The project our team imagined is about controlling electrically genetically engineered cells to induce a desired behavior. In particular, our Project had the ambitious goal of making LECs (Light Emitting Cells).

In order to do so, we have worked with a bioluminiscent protein named aequorin. Aequorin is present in jellyfish and it is responsible of the emission of Light by these marine invertebrates. In order for aequorin to produce Light, this protein has to be coupled to a prostetic group: coelenterazine. Coelenterazine is oxidized when calcium ions bind to the aequorin-coelenterazine complex and, as a result, light is emitted. This is not a fluorescent reaction, as aequorin do not need to be excited with UV light.


But since we did not want to work with jellyfishes in the lab, we used budding yeast, Saccharomyces cerevisiae, as a simple host for our experiments. We used a genetically modified yeast strain expressing aequorin. This strain has been reported to produce light through a calcium channel-based system in response to a chemical stimulation.

But our aim was to control electrically our LECs, so we tried to induce a membrane depolarization by supplying electricity to our yeasts and open voltage-dependent calcium channels to produce a calcium entry to cytosol and, as a result, get light emission.



In summary, we designed a yeast-based system for the production of light through a jellyfish protein sensitive to calcium. Since calcium enters the cytoplasm through voltage channels, it is theoretically possible to have light emission under electrical control. If this was possible, a biological display made of aequorin-expressing yeasts as living pixels could be constructed.

Some interesting bibliography used to develop this part of the project and that can be very interesting is found here