摘要翻译:
提出了一种基于场论的生物物质动力学模型的新方法。结果表明,场论中的一些著名工具可以用来描述生命物质中的物理现象,特别是在DNA和蛋白质等基本生物物质中。在这种方法中,生物物质动力学以拉格朗日的形式表示为其基本物质之间相互作用的结果。从拉格朗日出发,将为进一步推广提供更有力的理论基础。此外,它还使我们能够利用统计力学来获得丰富的物理可观测信息,而不是依赖于由于非线性而无法求解的某一运动方程的时空动力学。文中给出了以前结果中的几个例子,并作了简要说明。
---
英文标题:
《Field theory approach in the dynamics of biomatter》
---
作者:
L. T. Handoko
---
最新提交年份:
2012
---
分类信息:
一级分类:Quantitative Biology 数量生物学
二级分类:Other Quantitative Biology 其他定量生物学
分类描述:Work in quantitative biology that does not fit into the other q-bio classifications
不适合其他q-bio分类的定量生物学工作
--
一级分类:Physics 物理学
二级分类:Biological Physics 生物物理学
分类描述:Molecular biophysics, cellular biophysics, neurological biophysics, membrane biophysics, single-molecule biophysics, ecological biophysics, quantum phenomena in biological systems (quantum biophysics), theoretical biophysics, molecular dynamics/modeling and simulation, game theory, biomechanics, bioinformatics, microorganisms, virology, evolution, biophysical methods.
分子生物物理、细胞生物物理、神经生物物理、膜生物物理、单分子生物物理、生态生物物理、生物系统中的量子现象(量子生物物理)、理论生物物理、分子动力学/建模与模拟、博弈论、生物力学、生物信息学、微生物、病毒学、进化论、生物物理方法。
--
---
英文摘要:
A new approach to model the biomatter dynamics based on the field theory is presented. It is shown that some well known tools in field theory can be utilized to describe the physical phenomena in life matters, in particular at elementary biomatters like DNA and proteins. In this approach, the biomatter dynamics are represented as results of interactions among its elementary matters in the form of lagrangian. Starting from the lagrangian would provide stronger underlying theoretical consideration for further extension. Moreover, it also enables us to acquire rich physical observables using statistical mechanics instead of relying on the space-time dynamics from certain equation of motions which is not solvable due to its nonlinearities. Few examples from previous results are given and explained briefly.
---
PDF链接:
https://arxiv.org/pdf/1211.1190