Team:McGill
From 2009.igem.org
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Welcome to Quebec's only iGEM team! Our team is made up of a group of motivated students and faculty from McGill University in Montreal, Quebec, Canada. We have been hard at work preparing for this year's competition. The following webpages should give you an brief oversight into what we have accomplished this year! | Welcome to Quebec's only iGEM team! Our team is made up of a group of motivated students and faculty from McGill University in Montreal, Quebec, Canada. We have been hard at work preparing for this year's competition. The following webpages should give you an brief oversight into what we have accomplished this year! | ||
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+ | =='''Project Description (General)'''== | ||
+ | We are interested in exploring the biology of intercellular signaling. The human body is composed of trillions of cells, which have to communicate with each other over long distances. Although there are many communication mechanisms we decided to focus on chemical signaling. Specifically, we are interested in investigating the dynamics of activation-inhibition signaling. This occurs when a cell synthesis and releases a chemical that is capable of diffusing to a second cell and activating production of an inhibitory chemical which diffuses back to the first cell and inactivates synthesis of the former chemical (as illustrated in the following diagram). | ||
+ | [[Image: Mcgill09Projectfig1.png|frame|center|Figure 1 – The diffusible proteins A and B are involved in an opposite feedback mechanism]] |
Revision as of 04:04, 21 October 2009
Welcome to the 2009 McGill iGEM Team homepage!
Welcome to Quebec's only iGEM team! Our team is made up of a group of motivated students and faculty from McGill University in Montreal, Quebec, Canada. We have been hard at work preparing for this year's competition. The following webpages should give you an brief oversight into what we have accomplished this year!
Project Description (General)
We are interested in exploring the biology of intercellular signaling. The human body is composed of trillions of cells, which have to communicate with each other over long distances. Although there are many communication mechanisms we decided to focus on chemical signaling. Specifically, we are interested in investigating the dynamics of activation-inhibition signaling. This occurs when a cell synthesis and releases a chemical that is capable of diffusing to a second cell and activating production of an inhibitory chemical which diffuses back to the first cell and inactivates synthesis of the former chemical (as illustrated in the following diagram).