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Timing molecular motion and production with a synthetic transcriptional clock
Abstract The realization of artificial biochemical
The realization of artificial biochemical reaction networks with unique functionality is one of the main challenges for the development of synthetic biology. Due to the reduced number of components, biochemical circuits constructed in vitro promise to be more amenable to systematic design and quantitative assessment than circuits embedded within living organisms. To make good on that promise, effective methods for composing subsystems into larger systems are needed. Here we used an artificial biochemical oscillator based on in vitro transcription and RNA degradation reactions to drive a variety of “load” processes such as the operation of a DNA-based nanomechanical device (“DNA tweezers”) or the production of a functional RNA molecule (an aptamer for malachite green). We implemented several mechanisms for coupling the load processes to the oscillator circuit and compared them based on how much the load affected the frequency and amplitude of the core oscillator, and how much of the load was effectively driven. Based on heuristic insights and computational modeling, an “insulator circuit” was developed, which strongly reduced the detrimental influence of the load on the oscillator circuit. Understanding how to design effective insulation between biochemical subsystems will be critical for the synthesis of larger and more complex systems.
thesis of larger and more complex systems.  +
Authors Elisa Franco, Eike Friedrichs, Jongmin Kim, Ralf Jungmann, Richard Murray, Erik Winfree, Friedrich C. Simmel  +
Funding Molecular Programming Project + , Biomolecular Circuits for Rapid Detection and Response to Environmental Events +
ID 2011r  +
Source ''Proceedings of the National Academy of Science'' (PNAS), 108 (40) E784-E793  +
Tag fra+11-pnas  +
Title Timing molecular motion and production with a synthetic transcriptional clock +
Type Journal paper  +
Categories Papers
Modification date
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19 January 2019 16:05:51  +
URL
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http://www.pnas.org/content/early/2011/09/14/1100060108.full.pdf  +
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Timing molecular motion and production with a synthetic transcriptional clock + Title
 

 

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