Team:SDU-Denmark/team2

From 2010.igem.org

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(Mike Stein Barnkob)
(Ann Zahle Andersen)
 
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===Ann Zahle Andersen===
===Ann Zahle Andersen===
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[[Image:Team-SDU-Denmark-profil-Ann.JPG|150px|left]]
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[[Image:Team-SDU-Denmark-profil-Ann3.JPG|140px|left]]
<p style="text-align: justify;">I am a post.doc at the microbiology group of the department of biochemistry and molecular biology at SDU. I have a past in systems biology and mathematical modeling, but am currently researching in the field of food microbiology.<br>
<p style="text-align: justify;">I am a post.doc at the microbiology group of the department of biochemistry and molecular biology at SDU. I have a past in systems biology and mathematical modeling, but am currently researching in the field of food microbiology.<br>
I was introduced to the iGEM team in May and immediately saw great potential. Therefore I am truly honored to be an instructor on their project and look forward to lots of fun and good science over the summer.
I was introduced to the iGEM team in May and immediately saw great potential. Therefore I am truly honored to be an instructor on their project and look forward to lots of fun and good science over the summer.
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This includes biophysical processes such as:<br>
This includes biophysical processes such as:<br>
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Optimizing a drug delivery vehicle for delivering its payload to membrane-bound receptors<br>
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•  Optimizing a drug delivery vehicle for delivering its payload to membrane-bound receptors<br>
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Signal transduction from the plasma membrane to the nucleus via motor-assisted transport vesicles<br>
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•  Signal transduction from the plasma membrane to the nucleus via motor-assisted transport vesicles<br>
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Pattern formation of receptors in the cell membrane<br>
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•  Pattern formation of receptors in the cell membrane<br>
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Sensitivity analysis of signalling networks in the presence of nanoparticles<br>
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•  Sensitivity analysis of signalling networks in the presence of nanoparticles<br>
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Nanoparticles interacting with the plasma membrane<br>
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•  Nanoparticles interacting with the plasma membrane<br>
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Engulfment of foreign objects into a cell<br>
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•  Engulfment of foreign objects into a cell<br>
The techniques I use are particle-based simulation methods such as Dissipative Particle Dynamics, Brownian dynamics, Molecular Dynamics, and theoretical tools such as reaction-diffusion equations, non-linear differential equations.
The techniques I use are particle-based simulation methods such as Dissipative Particle Dynamics, Brownian dynamics, Molecular Dynamics, and theoretical tools such as reaction-diffusion equations, non-linear differential equations.
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When I am not busy being an inspirational force in the iGEM-lab, I spend time studying medicine, playing with [http://openwetware.org/wiki/Mike_Barnkob:Projects/Liquid_handling_robot LEGOs] and cure cancer.
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When I am not busy working on the iGEM project, I spend time studying medicine, playing with [http://openwetware.org/wiki/Mike_Barnkob:Projects/Liquid_handling_robot LEGOs] and curing cancer.
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Latest revision as of 00:13, 28 October 2010