The Macroscopic to Mesoscopic Transition in Inter-Oscillator Stochastic Synchronization in Circadian Oscillators

Gurumayum Reenaroy Devi; R. K. Brojen Singh; B. Indrajit Sharma

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The Macroscopic to Mesoscopic Transition in Inter-Oscillator Stochastic Synchronization in Circadian Oscillators

机译：昼夜节律振荡器间振荡器随机同步的宏观到介观转变

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We investigated numerically the approximate estimation of thermodynamic limit which is the limiting value of mesoscopic to macroscopic transition. Since the number of oscillators (nuclei) in a single Neurospora crassa cytoplasm is small and finite, we employ specific coupling mechanisms namely diffusive and mean field couplings to study how multi-oscillator stochastic synchronization is achieved in this organism as a function of system size and coupling constant. We predict the destructive effect of noise in stochastic inter-oscillator synchronization at small system size i.e., mesoscopic system, however at larger system size i.e., macroscopic system this destructive effect is minimized and the degree of synchronization is faster. We also claim that as the number of coupling molecular species increases, information processing among the coupled oscillators is much more quicker and so synchrony is faster at all macroscopic and mesoscopic systems.

机译：我们在数值上研究了热力学极限的近似估计，这是介观到宏观转变的极限值。由于单个景天孢菌胞质中的振荡器（核）数目很小且有限，因此我们采用特定的耦合机制，即扩散耦合和平均场耦合来研究如何在该生物体中实现多振荡器随机同步，这取决于系统大小和耦合常数。我们预测了在较小的系统尺寸（即介观系统）下，随机振荡器间同步中噪声的破坏作用，但是在较大的系统尺寸（即宏观系统）下，这种破坏作用最小化，同步程度更快。我们还声称，随着耦合分子种类的增加，耦合的振荡器之间的信息处理会更快，因此在所有宏观和介观系统中同步速度都更快。

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来源
《Science of advanced materials》 |2012年第1期|p.166-172|共7页
作者
Gurumayum Reenaroy Devi; R. K. Brojen Singh; B. Indrajit Sharma;
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作者单位

Centre for Interdisciplinary Research in Basic Sciences, Jamia Millia Islamia, New Delhi 110025, India;

Centre for Interdisciplinary Research in Basic Sciences, Jamia Millia Islamia, New Delhi 110025, India;

Department of Physics, Assam University, Silchar 788011, Assam, India;

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正文语种 eng
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synchronization; diffusive coupling; mean field coupling; phase synchronization; thermodynamic limit; circadian rhythm;

机译：同步扩散耦合平均场耦合相位同步;热力学极限;昼夜节律;

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4. Phase Synchronization of Circadian Oscillators Induced by a Light-Dark Cycle and Extracellular Noise [C] . Ying Li, Jianbao Zhang, Zengrong Liu International Conference on Life System Modeling and Simulation(LSMS 2007); 20070914-17; Shanghai(CN) . 2007

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5. Entrainment of Stochastic Oscillators with Application to a Cellular Circadian Model Entrained by Light in the Presence of Molecular Noise [D] . Wang, Guanyu. 2018

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6. Synchronizing stochastic circadian oscillators in single cells of Neurospora crassa [O] . Zhaojie Deng, Sam Arsenault, Cristian Caranica, -1

机译：在神经孢霉的单细胞中同步随机生物钟振荡器
7. Synchronizing stochastic circadian oscillators in single cells of Neurospora crassa [O] . Zhaojie Deng, Sam Arsenault, Cristian Caranica, 2016

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The Macroscopic to Mesoscopic Transition in Inter-Oscillator Stochastic Synchronization in Circadian Oscillators

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