Analysis on breathing dynamics of DNA circuits

机译：DNA回路的呼吸动力学分析

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It is still not clear whether terahertz (THz) radiation can drive DNA pairing/unpairing phenomenon (breathing). Based on the assumption that DNA breathers can be generated when the system has the property to realize self-excited oscillations in the presence of the THz field, we investigate the possibility of THz control of DNA circuits with logic gates such as intelligent sensors. Our simulation results using the van der Pol equation suggest that self-excited oscillations can lead the large amplitude of vibration to create an initial stretch necessary to generate DNA breathers under appropriate nonlinear damping conditions. When the DNA structure can be designed to have such mechanisms for self-excited oscillations in the THz field, THz waves will provide a new effective method to regulate the DNA devices through the control of DNA breathing.

机译：太赫兹（THz）辐射是否能驱动DNA配对/不配对现象（呼吸），目前尚不清楚。基于这样的假设：当系统具有在THz场存在的情况下实现自激振荡的特性时，就会产生DNA通气，因此，我们研究了使用逻辑门（例如智能传感器）对DNA电路进行THz控制的可能性。我们使用van der Pol方程进行的仿真结果表明，自激振荡会导致较大的振动幅度，从而产生必要的初始拉伸，从而在适当的非线性阻尼条件下产生DNA呼吸。当将DNA结构设计成具有在THz场中产生自激振荡的机制时，THz波将提供一种通过控制DNA呼吸来调节DNA装置的新有效方法。

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《IEEE biomedical circuits and systems conference》|2014年|288-291|共4页
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Hirabayashi Miki; Tanaka Shukichi; Kojima Hiroaki;
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Biological systems; Biomembranes; DNA; Damping; Equations; Hydrogen; Oscillators; DNA breathers; DNA circuits; intelligent sensors; self-excited oscillation; terahertz technology;

机译：生物系统;生物膜; DNA;阻尼;方程;氢;振荡器; DNA呼吸器; DNA电路;智能传感器;自激振荡;太赫兹技术;

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Analysis on breathing dynamics of DNA circuits

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