Twist-stretch relations in nucleic acids

IF 2.2 4区 生物学 Q3 BIOPHYSICS
Marco Zoli
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引用次数: 0

Abstract

Nucleic acids are highly deformable helical molecules constantly stretched, twisted and bent in their biological functioning. Single molecule experiments have shown that double stranded (ds)-RNA and standard ds-DNA have opposite twist-stretch patterns and stretching properties when overwound under a constant applied load. The key structural features of the A-form RNA and B-form DNA helices are here incorporated in a three-dimensional mesoscopic Hamiltonian model which accounts for the radial, bending and twisting fluctuations of the base pairs. Using path integral techniques which sum over the ensemble of the base pair fluctuations, I compute the average helical repeat of the molecules as a function of the load. The obtained twist-stretch relations and stretching properties, for short A- and B-helical fragments, are consistent with the opposite behaviors observed in kilo-base long molecules.

Abstract Image

核酸中的扭转-拉伸关系。
核酸是高度可变形的螺旋分子,在其生物功能中不断拉伸、扭曲和弯曲。单分子实验表明,双链rna和标准ds- dna在恒定负载下过度缠绕时具有相反的扭曲-拉伸模式和拉伸特性。a型RNA和b型DNA螺旋的关键结构特征在这里被纳入一个三维介观哈密顿模型,该模型解释了碱基对的径向、弯曲和扭转波动。使用对碱基对波动的集合求和的路径积分技术,我计算了分子的平均螺旋重复作为载荷的函数。对于短的A-和b -螺旋片段,得到的扭转-拉伸关系和拉伸性质与在千碱基长分子中观察到的相反行为一致。
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来源期刊
European Biophysics Journal
European Biophysics Journal 生物-生物物理
CiteScore
4.30
自引率
0.00%
发文量
43
审稿时长
6-12 weeks
期刊介绍: The journal publishes papers in the field of biophysics, which is defined as the study of biological phenomena by using physical methods and concepts. Original papers, reviews and Biophysics letters are published. The primary goal of this journal is to advance the understanding of biological structure and function by application of the principles of physical science, and by presenting the work in a biophysical context. Papers employing a distinctively biophysical approach at all levels of biological organisation will be considered, as will both experimental and theoretical studies. The criteria for acceptance are scientific content, originality and relevance to biological systems of current interest and importance. Principal areas of interest include: - Structure and dynamics of biological macromolecules - Membrane biophysics and ion channels - Cell biophysics and organisation - Macromolecular assemblies - Biophysical methods and instrumentation - Advanced microscopics - System dynamics.
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