Stability analysis of an artificial biomolecular oscillator with non-cooperative regulatory interactions

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Stability analysis of an artificial biomolecular oscillator with non-cooperative regulatory interactions

Journal Article (2017)

Author(s)

Christian Cuba Samaniego (University of California)

Giulia Giordano (Lund University)

Franco Blanchini (Università degli Studi di Udine)

Elisa Franco (University of California)

Molecular biology Nonlinear systems Biochemistry Nonlinear oscillations Biological applications

DOI related publication

https://doi.org/10.1080/17513758.2016.1245790 Final published version

To reference this document use

https://resolver.tudelft.nl/uuid:4db4ade6-09a0-4bb9-b2e9-750ce04944c1

More Info

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Publication Year

2017

Language

English

Issue number

1

Volume number

11

Pages (from-to)

102-120

Downloads counter

139

Abstract

Oscillators are essential to fuel autonomous behaviours in molecular systems. Artificial oscillators built with programmable biological molecules such as DNA and RNA are generally easy to build and tune, and can serve as timers for biological computation and regulation. We describe a new artificial nucleic acid biochemical reaction network, andwedemonstrate its capacity to exhibit oscillatory solutions. This network can be built in vitro using nucleic acids and three bacteriophage enzymes, and has the potential to be implemented in cells. Numerical simulations suggest that oscillations occur in a realistic range of reaction rates and concentrations.