Population-Induced Phase Transitions and the Verification of Chemical Reaction Networks

Lathrop, James I.; Lutz, Jack H.; Lutz, Robyn R.; Potter, Hugh D.; Riley, Matthew R.

Population-Induced Phase Transitions and the Verification of Chemical Reaction Networks

Authors: James I. Lathrop
Jack H. Lutz
Robyn R. Lutz
Hugh D. Potter
Matthew R. Riley
Publication date: 1 January 2020
Publisher: LIPIcs - Leibniz International Proceedings in Informatics. 26th International Conference on DNA Computing and Molecular Programming (DNA 26)
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Abstract

We show that very simple molecular systems, modeled as chemical reaction networks, can have behaviors that exhibit dramatic phase transitions at certain population thresholds. Moreover, the magnitudes of these thresholds can thwart attempts to use simulation, model checking, or approximation by differential equations to formally verify the behaviors of such systems at realistic populations. We show how formal theorem provers can successfully verify some such systems at populations where other verification methods fail

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Last time updated on 21/11/2020