Oscillations induced by different timescales in signal transduction modules regulated by slowly evolving protein-protein interactions

Ndiaye I.; Chaves M.; Gouze J.-L.

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Oscillations induced by different timescales in signal transduction modules regulated by slowly evolving protein-protein interactions

机译：信号转导模块中不同时间尺度引起的振荡，由缓慢发展的蛋白质-蛋白质相互作用调节

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The dynamics induced by the existence of different timescales in a system is explored, in the context of a model composed of activation and signalling modules regulated by a slowly evolving process, such as some particular proteinÃÂ¿protein interactions or genetic-like dynamics. It is shown that slowly varying regulation patterns can induce rapid changes in the steady states of the (fast varying) signal transduction pathway, and lead to sustained oscillations. These results are illustrated by a reduced model of the Cdc2-cyclin B cell cycle oscillator. Using available experimental data, parameters of the model are estimated and found to agree with the requirements for a mechanism for oscillatory behaviour arising from coupling fast and slow processes.

机译：在由一个激活和信号模块组成的模型的上下文中，探索由系统中不同时间尺度的存在所引起的动力学，该模块受一个缓慢发展的过程调节，例如某些特定的蛋白质，蛋白质相互作用或类似遗传的动力学。结果表明，缓慢变化的调节模式可以引起（快速变化的）信号转导途径稳态的快速变化，并导致持续的振荡。通过简化的Cdc2-细胞周期蛋白B细胞周期振荡器模型可以说明这些结果。使用可用的实验数据，估计模型的参数，发现该参数与快速和慢速过程耦合产生的振荡行为机制的要求相符。

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《Systems Biology, IET》 |2010年第4期|p.263-276|共14页
作者
Ndiaye I.; Chaves M.; Gouze J.-L.;
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COMORE, INRIA;

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1. Oscillations induced by different timescales in signal transduction modules regulated by slowly evolving protein-protein interactions [J] . I. Ndiaye, rnM. Choves, rnJ.-L. Gouze IEE Proceedings . 2010,第4期

机译：信号转导模块中不同时间尺度引起的振荡，由缓慢发展的蛋白质-蛋白质相互作用调节
2. Comprehensive analysis of protein-protein interactions between Arabidopsis MAPKs and MARK kinases helps define potential MARK signalling modules [J] . Plant signaling & behavior . 2008,第12期

机译：拟南芥MAPK和MARK激酶之间蛋白质-蛋白质相互作用的全面分析有助于定义潜在的MARK信号传导模块
3. The Escherichia coli PII Signal Transduction Protein Regulates the Activities of the Two-Component System Transmitter Protein NRII by Direct Interaction with the Kinase Domain of the Transmitter Module [J] . Augen A.Pioszak, Peng Jiang, Alexander J.Ninfa Biochemistry . 2000,第44期

机译：大肠杆菌PII信号转导蛋白通过与变送器模块的激酶结构域直接相互作用来调节两组分系统变送器蛋白NRII的活性。
4. In Silico Study of MicroRNA-Regulated Protein-Protein Interaction Modules in Human Disease and Plant Infected with Pathogen Systems [C] . Ka-Lok Ng Advances in environment, computational chemistry amp; bioscience . 2012

机译：在人类疾病和病原体系统感染的植物中，MicroRNA调控的蛋白质-蛋白质相互作用模块的计算机模拟研究
5. Structural and thermodynamic characterization of protein-protein interactions involved in TGF-beta signal transduction. [D] . Chong, P. Andrew. 2005

机译：TGF-β信号转导中涉及的蛋白质-蛋白质相互作用的结构和热力学表征。
6. A protein-protein interaction map of the TNF-induced NF-κB signal transduction pathway [O] . Emmy Van Quickelberghe, Delphine De Sutter, Geert van Loo, 2018

机译：TNF诱导的NF-κB信号转导途径的蛋白相互作用图
7. Oscillations induced by different timescales in signal modules regulated by slowly evolving protein-protein interactions [O] . Ndiaye Ibrahima, Chaves Madalena, Gouzé Jean-Luc 2010

机译：信号模块中不同时间尺度引起的振荡，由缓慢发展的蛋白质-蛋白质相互作用调节

Oscillations induced by different timescales in signal transduction modules regulated by slowly evolving protein-protein interactions

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