黑暗呼吸使用对称莫尔斯，溶剂和DNA呼吸的外部电位

Eclética Química Journal Pub Date : 2018-12-05 DOI:10.26850/1678-4618EQJ.V43.4.2018.P44-49

H. C. Gutiérrez, M. C. Gutiérrez, G. I. F. Rivera, L. J. C. F. Rivera, D. F. R. Vallejo

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引用次数: 3

摘要

本文在具有溶剂和外电位的对称- peyrard - bishop - dauxois模型(S-PBD)中分析了DNA的动力学和量子热力学，并利用暗呼吸和关联薛定谔微分方程的基态波函数描述了DNA的瞬态构象涨落。我们使用了S-PBD, Floquet理论，量子热力学和有限差分方法。我们表明，对于低耦合暗呼吸是存在的。我们估计DNA的波动或呼吸。对于S-PBD模型，我们得到了k<0.004时暗呼吸器的稳定性和耦合k=0.004时移动呼吸器的稳定性。在量子热力学条件下，S-PBD模型中暗呼吸子的涨落近似为零。黏性和外电位效应与氢键拉伸成正比。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Dark breather using symmetric Morse, solvent and external potentials for DNA breathing

We analyze the dynamics and the quantum thermodynamics of DNA in Symmetric-Peyrard-Bishop-Dauxois model (S-PBD) with solvent and external potentials and describe the transient conformational fluctuations using dark breather and the ground state wave function of the associate Schrodinger differential equation. We used the S-PBD, the Floquet theory, quantum thermodynamic and finite difference methods. We show that for lower coupling dark breather is present. We estimate the fluctuations or breathing of DNA. For the S-PBD model we have the stability of dark breather for k<0.004 and mobile breathers with coupling k=0.004. The fluctuations of the dark breather in the S-PBD model is approximately zero with the quantum thermodynamics. The viscous and external potential effect is direct proportional to hydrogen bond stretching.

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Eclética Química Journal

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