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Design of insulating devices for in vitro synthetic circuits |
Abstract |
This paper describes a synthetic in vitro … This paper describes a synthetic in vitro genetic circuit programmed to work as an insulating device. This circuit is composed of nucleic acids, which can be designed to interact according to user defined rules, and of few proteins that perform catalytic functions. A model of the circuit is derived from first principle biochemical laws. This model is shown to exhibit time-scale separation that makes its output insensitive to downstream time varying loads. Simulation results show the circuit effectiveness and represent the starting point for future experimental testing of the device. future experimental testing of the device. +
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Authors | Elisa Franco, Domitilla Del Del Vecchio, Richard M Murray + |
ID | 2008b + |
Source | Conference on Decision and Control (CDC), 2009 (Submitted) + |
Tag | fdm08 + |
Title | Design of insulating devices for in vitro synthetic circuits + |
Type | Preprint + |
Categories | Papers |
Modification date This property is a special property in this wiki.
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15 May 2016 06:17:02 + |
URL This property is a special property in this wiki.
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ftp://ftp.cds.caltech.edu/pub/murray/preprints/fdm09-cdc_s.pdf + |
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Design of insulating devices for in vitro synthetic circuits + | Title |
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