Team:EPF Lausanne
From 2010.igem.org
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[2] http://www.nature.com/emboj/journal/v20/n15/full/7593895a.html </font> | [2] http://www.nature.com/emboj/journal/v20/n15/full/7593895a.html </font> | ||
- | Acknowledgements: <br> | + | <font size="1.5">Acknowledgements: <br> |
* We thank Prof. Guido Favia and Dr. Claudia Damiani from the University of Camerino for the Asaia strains and their helpful advice and protocols on how to grow and manipulate Asaia. | * We thank Prof. Guido Favia and Dr. Claudia Damiani from the University of Camerino for the Asaia strains and their helpful advice and protocols on how to grow and manipulate Asaia. | ||
* We would like to thank Prof Lemaître for his advice and the possibility to conduct experiments with drosophila in his lab. | * We would like to thank Prof Lemaître for his advice and the possibility to conduct experiments with drosophila in his lab. |
Revision as of 15:05, 19 July 2010
We are a group of ten synthetic biology interested EPFL students with various backgrounds (Life Sciences, Microengineering, Computer Science and Physics) and we will represent EPFL at the 2010 iGEM competition! If you want to receive news from us and follow our progress in the lab become a fan of our team on facebook: http://www.facebook.com/pages/EPFL-iGEM/117887404918202 | ||||||||||
Our project:
The next step is to achieve a release of the toxin or the receptors into the gut of the mosquito. This could be done by lysis of the cells or ideally by secretion.
As a last and very challenging step we consider the option of a blood sensor, which triggers lysis or secretion. This would greatly increase the probability that there is a sufficient amount of immunotoxin to stop the plasmodium from being able to travel to the salivary gland and hence being transmitted to the next victim.
[1] http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1885625/ Acknowledgements:
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