核酸结构、动力学及相互作用的模拟与建模。

Simulation and modeling of nucleic acid structure, dynamics and interactions.

作者信息

Cheatham Thomas E

机构信息

Department of Medicinal Chemistry, University of Utah, 2000 East, 30 South, Skaggs Hall 201, Salt Lake City, Utah 84112, USA.

出版信息

Curr Opin Struct Biol. 2004 Jun;14(3):360-7. doi: 10.1016/j.sbi.2004.05.001.

DOI:10.1016/j.sbi.2004.05.001

PMID:15193317

Abstract

In moving towards the simulation of larger nucleic acid assemblies over longer timescales that include more accurate representations of the environment, we are nearing the end of an era characterized by single nanosecond molecular dynamics simulation of nucleic acids. We are excited by the promise and predictability of the modeling methods, yet remain prudently cautious of sampling and force field limitations. Highlights include the accurate representation of subtle drug-DNA interactions, the detailed study of modified and unusual nucleic acid structures, insight into the influence of dynamics on the structure of DNA, and exploration of the interaction of solvent and ions with nucleic acids.

摘要

在朝着更长时间尺度上模拟更大的核酸组装体迈进的过程中，其中包括对环境更精确的表征，我们正接近一个以核酸单纳秒分子动力学模拟为特征的时代的尾声。我们对建模方法的前景和可预测性感到兴奋，但仍谨慎对待采样和力场的局限性。亮点包括对微妙的药物 - DNA 相互作用的精确表征、对修饰和异常核酸结构的详细研究、对动力学对 DNA 结构影响的洞察，以及对溶剂和离子与核酸相互作用的探索。

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核酸结构、动力学及相互作用的模拟与建模。

Simulation and modeling of nucleic acid structure, dynamics and interactions.

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核酸结构、动力学及相互作用的模拟与建模。

Simulation and modeling of nucleic acid structure, dynamics and interactions.

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机构信息

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