Team:Wageningen UR

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==Welcome to our wiki!==
==Welcome to our wiki!==
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
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. We are working on two projects: "Synchronized Oscillatory System" and "Fungal Track 'n Trace". The aim of the Synchronized Oscillatory System project is to produce periodic oscillatory protein expression in ''E. coli'' cells, synchronized across a population of, 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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from Wageningen University will participate. Our team aims to use a synthetic biology approach to engineer artificial cell-to-cell communication systems. We are working on two projects: "Synchronized Oscillatory System" and "Fungal Track 'n Trace". The aim of the Synchronized Oscillatory System project is to produce periodic oscillatory protein expression in ''E. coli'' cells, synchronized across a population of, 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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[[File:Fungus_and_SOS.png]]

Revision as of 12:24, 19 May 2011



Welcome to our wiki!

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. We are working on two projects: "Synchronized Oscillatory System" and "Fungal Track 'n Trace". The aim of the Synchronized Oscillatory System project is to produce periodic oscillatory protein expression in E. coli cells, synchronized across a population of, 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.


Fungus and SOS.png