Keymer

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(Welcome to the Keymer Laboratory)
(Welcome to the Keymer Laboratory)
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== Welcome to the Keymer Laboratory ==
== Welcome to the Keymer Laboratory ==
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<b>BIOLOGY:</b>
<b>BIOLOGY:</b>
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We study the biophysics and spatial evolutionary ecology of microbial assemblages in nanofabricated adaptive (habitat) landscapes. We combine theoretical biology with experimental biophysics to study systems microbiology in nano-scale on-chip ecosystems.
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We study the biophysics and spatial evolutionary ecology of microbial assemblages in nanofabricated adaptive (habitat) landscapes. We combine theoretical biology with experimental biophysics to study systems microbiology in nano-scale on-chip ecosystems.<br>
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<b>PHYSICS:</b>
<b>PHYSICS:</b>
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We study the physics of the interface between organisms (cells) and their enviroment (niches). At the nanoscale, this interface blurs into a soft-matter physical system.  
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We study the physics of the interface between organisms (cells) and their enviroment (niches). At the nanoscale, this interface blurs into a soft-matter physical system. We are interested in self-assembly and self-replication in biophysical evolutionary systems.
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We are interested in self-assembly and self-replication in biophysical evolutionary systems.
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Revision as of 13:42, 13 June 2007

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Welcome to the Keymer Laboratory

BIOLOGY: We study the biophysics and spatial evolutionary ecology of microbial assemblages in nanofabricated adaptive (habitat) landscapes. We combine theoretical biology with experimental biophysics to study systems microbiology in nano-scale on-chip ecosystems.

PHYSICS:

We study the physics of the interface between organisms (cells) and their enviroment (niches). At the nanoscale, this interface blurs into a soft-matter physical system. We are interested in self-assembly and self-replication in biophysical evolutionary systems.

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