哺乳动物具有时滞的M/G 1期调控模块的分岔分析

S. Ma
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引用次数: 0

摘要

G0/G1“间隙”连接S期和M期形成细胞周期。对M期酶反应驱动靶蛋白生成的动力学进行了数学分析。由于信号传输需要G0/G1“间隙”相位的时间,因此引入了时间延迟。应用几何解析方法分析了DDEs模型的Hopf分岔问题。当发生亚临界Hopf分岔时,产生不稳定振荡周期解。在极限环的鞍节点分岔下还观察到极限环的迟滞现象。有趣的是,由于稳定性切换,分岔周期解在Hopf线附近消失。利用Lyapunov-Schmidt约简格式,在中心流形上计算了范式。最后,验证了理论分析结果与数值模拟结果的一致性。
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Bifurcation Analysis of the Regulatory Modules of the Mammalian M/G 1 Phase with Time Delay
G0/G1 “gaps” joint the S phase and M phase to form the cell cycle. The dynamics of enzyme reaction to drive the target protein production in M phase is analyzed mathematically. Time delay is introduced since the signal transmission need time in G0/G1 “gaps” phase. Hopf bifurcation of DDEs model is analyzed by applying geometrical analytical method. The instability oscillating periodic solutions arise as subcritical Hopf bifurcation occurs. The Hysteresis phenomena of the limit cycle are also observed underlying the saddle-node bifurcation of the limit cycle. Due to stability switching, interestingly, the bifurcating periodical solution dies out near the vicinity of Hopf lines. By Lyapunov-Schmidt reduction scheme, the normal form is computed on the center manifold. Finally, it is verified that the theory analytical results are in coincidence with the numerical simulation.
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