Team:Wageningen UR

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=== Project 1 ===
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Oscillating up and down. The rest of the design (as seen on the Testpage) will be implemented soon. For now it's just a (kind of) working wiki, which is supposed to be as userfriendly as possible for the whole team. (Which means I am trying to bother you with as little desing coding stuff here as possible).
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== Welcome to the iGEM wiki of Team Wageningen UR ==
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[[Team:Wageningen_UR/Project/PartsProj1| Link to data page]]
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The international Genetically Engineered Machine competition (iGEM) is a major competition in Synthetic Biology for undergraduate students. This year will be the eighth time this competition is held and the first time that a team
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from Wageningen University will participate. Our team aims to use a synthetic biology approach to engineer artificial cell-to-cell communication systems. Our main project is to create a "Synchronized Oscillatory System" hereafter named [https://2011.igem.org/Team:Wageningen_UR/Project/IntroductionProj1 "Synchroscillator"] and we also have a side project which we call: [https://2011.igem.org/Team:Wageningen_UR/Project/IntroductionProj2 "Fungal Track 'n Trace"]. The aim of the Synchroscillator project is to produce periodic oscillatory protein expression in ''E. coli'', synchronized across a population, using the quorum sensing machinery from ''Vibrio fischerii''. The Fungal Track 'n Trace project aims to implement an artificial intercellular communication system in the hyphal fungus ''Aspergillus nidulans''.
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Latest revision as of 11:36, 26 October 2011

Building a Synchronized Oscillatory System

Welcome to the iGEM wiki of Team Wageningen UR


Link to data page


The international Genetically Engineered Machine competition (iGEM) is a major competition in Synthetic Biology for undergraduate students. This year will be the eighth time this competition is held and the first time that a team from Wageningen University will participate. Our team aims to use a synthetic biology approach to engineer artificial cell-to-cell communication systems. Our main project is to create a "Synchronized Oscillatory System" hereafter named "Synchroscillator" and we also have a side project which we call: "Fungal Track 'n Trace". The aim of the Synchroscillator project is to produce periodic oscillatory protein expression in E. coli, synchronized across a population, using the quorum sensing machinery from Vibrio fischerii. The Fungal Track 'n Trace project aims to implement an artificial intercellular communication system in the hyphal fungus Aspergillus nidulans.