Princeton

From 2007.igem.org

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==Welcome==
==Welcome==
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Welcome to the [http://www.princeton.edu Princeton University] Synthetic Biology 2007 wiki for the International Genetically Engineered Machines (iGEM) 2007 competition. 2007 is our fourth year of participation; a [https://2006.igem.org/wiki/index.php/Princeton:Project_Summary summary] of our iGEM 2006 project, which was the second runner-up in the overall competition, is available.
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Welcome to the [http://www.princeton.edu Princeton University] Synthetic Biology 2007 wiki for the International Genetically Engineered Machines (iGEM) 2007 competition. 2007 is our fourth year of participation; a [[Princeton/Project Description | description]] of our current project and a [https://2006.igem.org/wiki/index.php/Princeton:Project_Summary summary] of our iGEM 2006 project, which was the second runner-up in the overall competition, are available.
==People==
==People==

Revision as of 14:42, 6 August 2007


Princeton University

Welcome

Welcome to the Princeton University Synthetic Biology 2007 wiki for the International Genetically Engineered Machines (iGEM) 2007 competition. 2007 is our fourth year of participation; a description of our current project and a summary of our iGEM 2006 project, which was the second runner-up in the overall competition, are available.

People

Group pictures

Partial group picture, Princeton University
Group outing picture, Longport (2007-07-17)

Instructors

Student members

  • Justine Chiu
  • Devin Cooper
  • Paul Cowgill
  • Caroline DeHart
  • Vichi Jagannathan
  • Kush Mangal
  • Jonathan Monk
  • Katia Sherman
  • Andrew Sichel
  • Aparna Swaminathan
  • Bambi Tsui
  • Neal Yuan

Previous work

2006: Programmed differentiation of mouse embryonic stem cells using artificial signaling pathways

Heart and brain

Our vision is to develop reliable techniques for programmed tissue generation in mammalian systems. Our iGEM 2006 work encompasses artificial cell-cell signaling and signal processing, directed differentiation, pattern formation, modeling and precise cellular placement.

A summary of the project is available.