Keymer Lab: Difference between revisions
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== <i>Welcome to the </i> <b>Keymer | == <i>Welcome to the </i> <b>Keymer LAB</b> WiKi == | ||
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<b>BIOLOGY:</b> | <b>BIOLOGY:</b> | ||
We study the molecular biophysics and spatial evolutionary ecology of microbial (bacteria, phages & plasmids) and cellular (monocytes & macrophages) assemblages in nanofabricated adaptive (<i>habitat</i>) landscapes. We combine theoretical biology with experimental biophysics to study systems biology in nano-scale on-chip ecosystems.<br> | We study the molecular biophysics and spatial evolutionary ecology of microbial (bacteria, phages & plasmids) and cellular (monocytes & macrophages) assemblages in nanofabricated adaptive (<i>habitat</i>) landscapes. We combine theoretical biology with experimental biophysics to study systems biology in nano-scale on-chip ecosystems.<br> | ||
Revision as of 10:43, 9 November 2010
Welcome to the Keymer LAB WiKiBIOLOGY:
We study the molecular biophysics and spatial evolutionary ecology of microbial (bacteria, phages & plasmids) and cellular (monocytes & macrophages) assemblages in nanofabricated adaptive (habitat) landscapes. We combine theoretical biology with experimental biophysics to study systems biology in nano-scale on-chip ecosystems. PHYSICS: We study the interface between "individuals" (cells & replicons) and their "environment" (niches). At the nanoscale, this distinction blurs into a soft-matter physical (adaptive) system (organism). We are interested in molecular autopoiesis, self-regeneration, self-assembly, and adaptation (computation?) in biophysical evolutionary systems (instances of replicator-interactor cycles). TECHNOLOGY: We are interested in evolving metabolism into physical materials to provide biology-based functionality to human-built devices. We see nano-bio as the natural outcome of the evolutionary trajectory of technology. It corresponds to the adaptive radiation into the nanoscopic world within the (human) built-environment. |
