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Dynamical quorum sensing and synchronization in large populations of chemical oscillators

Dynamical quorum sensing and synchronization in large populations of chemical oscillators
Dynamical quorum sensing and synchronization in large populations of chemical oscillators
Populations of certain unicellular organisms, such as suspensions of yeast in nutrient solutions, undergo transitions to coordinated activity with increasing cell density. The collective behavior is believed to arise through communication by chemical signaling via the extracellular solution. We studied large, heterogeneous populations of discrete chemical oscillators (∼100,000) with well-defined kinetics to characterize two different types of density-dependent transitions to synchronized oscillatory behavior. For different chemical exchange rates between the oscillators and the surrounding solution, increasing oscillator density led to (i) the gradual synchronization of oscillatory activity, or (ii) the sudden “switching on” of synchronized oscillatory activity. We analyze the roles of oscillator density and exchange rate of signaling species in these transitions with a mathematical model of the interacting chemical oscillators.
0036-8075
614-617
Taylor, A.F.
08028a29-428d-4732-b6b1-f7a93389b386
Tinsley, M.R.
73c67f79-d033-4822-bd47-8868a10d6d5c
Wang, F.
53dd4fb1-86c1-4f5b-a053-702736507bab
Huang, Z.
3bd6d8a8-dcef-432e-b650-3b9d9d5febcf
Showalter, K.
165a29d9-4760-41ac-a782-49bf44af44a4
Taylor, A.F.
08028a29-428d-4732-b6b1-f7a93389b386
Tinsley, M.R.
73c67f79-d033-4822-bd47-8868a10d6d5c
Wang, F.
53dd4fb1-86c1-4f5b-a053-702736507bab
Huang, Z.
3bd6d8a8-dcef-432e-b650-3b9d9d5febcf
Showalter, K.
165a29d9-4760-41ac-a782-49bf44af44a4

Taylor, A.F., Tinsley, M.R., Wang, F., Huang, Z. and Showalter, K. (2009) Dynamical quorum sensing and synchronization in large populations of chemical oscillators. Science, 323 (5914), 614-617. (doi:10.1126/science.1166253).

Record type: Article

Abstract

Populations of certain unicellular organisms, such as suspensions of yeast in nutrient solutions, undergo transitions to coordinated activity with increasing cell density. The collective behavior is believed to arise through communication by chemical signaling via the extracellular solution. We studied large, heterogeneous populations of discrete chemical oscillators (∼100,000) with well-defined kinetics to characterize two different types of density-dependent transitions to synchronized oscillatory behavior. For different chemical exchange rates between the oscillators and the surrounding solution, increasing oscillator density led to (i) the gradual synchronization of oscillatory activity, or (ii) the sudden “switching on” of synchronized oscillatory activity. We analyze the roles of oscillator density and exchange rate of signaling species in these transitions with a mathematical model of the interacting chemical oscillators.

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Published date: 30 January 2009
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Identifiers

Local EPrints ID: 499561
URI: http://eprints.soton.ac.uk/id/eprint/499561
DOI: doi:10.1126/science.1166253
ISSN: 0036-8075
PURE UUID: 742c718e-14ce-4ee2-8293-4feb9fe24f35
ORCID for A.F. Taylor: ORCID iD orcid.org/0000-0003-0071-8306

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Date deposited: 25 Mar 2025 18:27
Last modified: 26 Mar 2025 03:14

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Contributors

Author: A.F. Taylor ORCID iD
Author: M.R. Tinsley
Author: F. Wang
Author: Z. Huang
Author: K. Showalter

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