University of Michigan 2006

From 2006.igem.org

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(From Design to Manufacturing)
(From Design to Manufacturing)
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=Our Project=
=Our Project=
==From Design to Manufacturing==
==From Design to Manufacturing==
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'''1. Paul-Tron 2k '''<br>
+
'''1. Paul-Tron 2k '''<br>
     An integrative prgramming environment for designing and testing genetic systems.
     An integrative prgramming environment for designing and testing genetic systems.
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'''2. Recursive Landing Pads''' <br>
+
 
 +
'''2. Recursive Landing Pads''' <br>
     An innovative method for inserting genes and DNA sequences onto E. coli's chromosome.
     An innovative method for inserting genes and DNA sequences onto E. coli's chromosome.
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'''3. Modeling Oscillatory Behavior of Clocks '''<br>
+
 
 +
'''3. Modeling Oscillatory Behavior of Clocks '''<br>
     A look at the parameter space of clocks and genetic oscillating devices,  
     A look at the parameter space of clocks and genetic oscillating devices,  
     primarily examining the ideal conditions for generating oscillations.
     primarily examining the ideal conditions for generating oscillations.
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'''4. Increasing Kinetic Order Through the Use of Sinks '''<br>
+
 
 +
'''4. Increasing Kinetic Order Through the Use of Sinks '''<br>
     A promising method for raising kinetic order in genetic systems to increase chances for oscillations.
     A promising method for raising kinetic order in genetic systems to increase chances for oscillations.

Revision as of 19:29, 20 October 2006

We're the iGEM team from the [http://www.umich.edu/ University of Michigan].


Contents

News

  • 2006.03.15 We opened our wiki page!

Organisation

Mailing Address

Peter Woolf
Department of Chemical Engineering
2300 Hayward St.
3074 H.H. Dow Building
Ann Arbor, MI 48109-2136

People

Students

Not pictured here:

Advisors

timeline

tasks

  • Update Wiki

Our Project

From Design to Manufacturing

1. Paul-Tron 2k 
An integrative prgramming environment for designing and testing genetic systems.
2. Recursive Landing Pads 
An innovative method for inserting genes and DNA sequences onto E. coli's chromosome.
3. Modeling Oscillatory Behavior of Clocks 
A look at the parameter space of clocks and genetic oscillating devices, primarily examining the ideal conditions for generating oscillations.
4. Increasing Kinetic Order Through the Use of Sinks 
A promising method for raising kinetic order in genetic systems to increase chances for oscillations.

Links

[http://synthbio.engin.umich.edu/wiki/ University of Michigan Team Wiki]

Miscellani

UMlogo.gif
Personal tools
Past/present/future years