Yu M Yevdokimov, A G Pershina, V I Salyanov, A A Magaeva, V I Popenko, E V Shtykova, L A Dadinova, S G Skuridin
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引用次数: 0
Abstract
The formation of cholesteric liquid-crystalline dispersions formed by double-stranded DNA molecules, handled by positively charged superparamagnetic cobalt ferrite nanoparticles, as well as action of these nanoparticles on DNA dispersion, are considered. The binding of magnetic nanoparticles to the linear double-stranded DNA in solution of high ionic strength (0.3 M NaCl) and subsequent phase exclusion of these complexes from polyethylene glycol-containing solutions lead to their inability to form dispersions, whose particles do possess the spatially twisted arrangement of neighboring double-stranded DNA molecules. The action of magnetic nanoparticles on DNA dispersion (one magnetic nanoparticle per one double-stranded DNA molecule) results in such "perturbation" of DNA structure at sites of magnetic nanoparticles binding that the regular spatial structure of DNA dispersion particles "blows up"; this process is accompanied by disappearance of both abnormal optical activity and characteristic Bragg maximum on the small-angle X-ray scattering curve. Allowing with the fact that the physicochemical properties of the DNA liquid-crystalline dispersion particles reflect features of spatial organization of these molecules in chromosomes of primitive organisms, it is possible, that the found effect can have the relevant biological consequences.
本文考虑了双链DNA分子在带正电的超顺磁性钴铁氧体纳米粒子处理下形成胆甾液晶分散体的过程,以及这些纳米粒子对DNA分散体的作用。磁性纳米颗粒在高离子强度(0.3 M NaCl)溶液中与线性双链DNA结合,随后在含聚乙二醇溶液中与这些配合物相排斥,导致它们无法形成分散体,其颗粒确实具有相邻双链DNA分子的空间扭曲排列。磁性纳米粒子对DNA分散体的作用(每个双链DNA分子有一个磁性纳米粒子)导致磁性纳米粒子结合位点DNA结构的“扰动”,导致DNA分散体粒子的规则空间结构“爆炸”;该过程伴随着异常旋光性和小角x射线散射曲线特征布拉格最大值的消失。考虑到DNA液晶分散颗粒的物理化学性质反映了这些分子在原始生物体染色体中的空间组织特征,因此,所发现的效应可能会产生相关的生物学后果。
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