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Multicellular strategy provides us a visa to constructing a complex gene network. During gene network constructing, as genetic network scaling up, more cells are involved in compartmentalizing genetic network. Natural quorum sensing and small chemical molecule generator and receiver systems provide an excellent platform for multicellular network construction. Unfortunately, naturally existed and well characterized cell-cell communication systems are far from sufficient. So exploiting new systems is significantly important in multicellular network construction using synthetic microbial consortia. | Multicellular strategy provides us a visa to constructing a complex gene network. During gene network constructing, as genetic network scaling up, more cells are involved in compartmentalizing genetic network. Natural quorum sensing and small chemical molecule generator and receiver systems provide an excellent platform for multicellular network construction. Unfortunately, naturally existed and well characterized cell-cell communication systems are far from sufficient. So exploiting new systems is significantly important in multicellular network construction using synthetic microbial consortia. | ||
Revision as of 20:32, 5 October 2011
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Chemical Wire Toolbox
Introduction|Harvesting ‘Chemical Wires’ From Nature|Synthesizing Quorum Sensing Inverters|Orthogonal Activating Matrix
Harvesting ‘Chemical Wires’ From Nature
Introduction
Multicellular strategy provides us a visa to constructing a complex gene network. During gene network constructing, as genetic network scaling up, more cells are involved in compartmentalizing genetic network. Natural quorum sensing and small chemical molecule generator and receiver systems provide an excellent platform for multicellular network construction. Unfortunately, naturally existed and well characterized cell-cell communication systems are far from sufficient. So exploiting new systems is significantly important in multicellular network construction using synthetic microbial consortia.
