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      Stochastic noise interferes coherently with a model biological clock and produces specific dynamic behaviour.

      1 , , , ,
      Proceedings. Biological sciences
      The Royal Society

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          Abstract

          The influence of noise is unavoidable in all living systems. Its impact on a model of a biological clock, normally running in regular oscillating modes, is examined. It is shown that in a specific system in which endogenous rhythmicity is produced by a beat oscillator acting on a feedback coupled metabolic pool system, noise can act coherently to produce unexpected dynamic behaviour, running from regular over pseudo-regular to irregular time-structures. If the biological system consists of a set of identical weakly coupled cells, stochasticity may lead to phase decoupling producing irregular spatio-temporal patterns. Synchronization via phase resetting can be achieved by external short-time temperature pulses. Explicit results are obtained for the well-studied circadian photosynthesis oscillations in plants performing crassulacean acid metabolism. Because of the generic structure of the underlying nonlinear dynamics they can, however, be regarded as a general property of the influence of noise on nonlinear excitable systems with fixed points occuring close to limit cycles.

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          Author and article information

          Journal
          Proc Biol Sci
          Proceedings. Biological sciences
          The Royal Society
          0962-8452
          0962-8452
          Jun 22 2001
          : 268
          : 1473
          Affiliations
          [1 ] Institute of Nuclear Physics, Department of Physics, Darmstadt University of Technology, Schlossgartenstrasse 9, D-64289 Darmstadt, Germany.
          Article
          10.1098/rspb.2001.1655
          1088742
          11410159
          ac3a5292-0038-43ce-b7b1-c536c44f2c45
          History

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