Team:Wageningen UR/Project/IntroductionProj2

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(Fungal Track 'n Trace)
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Our goal is to activate a synthetic genetic circuit at one end of a fungal hypha, and allow our signal to propagate to neighboring cells via diffusion and subsequent activation of a positive (genetic) feedback loop. [[Team:Wageningen_UR/Project/CompleteProject2Description|Read more]]
Our goal is to activate a synthetic genetic circuit at one end of a fungal hypha, and allow our signal to propagate to neighboring cells via diffusion and subsequent activation of a positive (genetic) feedback loop. [[Team:Wageningen_UR/Project/CompleteProject2Description|Read more]]
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[[Media:Signal_in_hyphea.jpg]]
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[[File:Signal_in_hyphea.jpg]]

Revision as of 13:26, 17 May 2011



Fungal Track 'n Trace

Abstract

Fungi have versatile metabolic capabilities that allow them to consume, transform, and produce a great variety of biomolecules. In the course of this iGEM project, we aim to explore the possibilities of cell-to-cell communication in the fungus Aspergillus nidulans. Engineered cell-to-cell communication in fungi is a relatively unexplored aspect of synthetic biology.

Our goal is to activate a synthetic genetic circuit at one end of a fungal hypha, and allow our signal to propagate to neighboring cells via diffusion and subsequent activation of a positive (genetic) feedback loop. Read more


Signal in hyphea.jpg