一种新型双（胍鎓）-四（β-环糊精）树枝状四脚体作为潜在基因递送（DNA和siRNA）系统的合成与络合能力。细胞siRNA转染研究。

Synthesis and complexation ability of a novel bis- (guanidinium)-tetrakis-(beta-cyclodextrin) dendrimeric tetrapod as a potential gene delivery (DNA and siRNA) system. Study of cellular siRNA transfection.

作者信息

Menuel S, Fontanay S, Clarot I, Duval R E, Diez L, Marsura A

机构信息

UMR 7565 SRSMC, CNRS, Nancy-Universite, Faculte de Pharmacie 5 rue A. Lebrun, BP 80403, 54001 Nancy Cedex, France.

出版信息

Bioconjug Chem. 2008 Dec;19(12):2357-62. doi: 10.1021/bc800193p.

DOI:10.1021/bc800193p

PMID:19053312

Abstract

The facile synthesis of a novel bis-(guanidinium)-tetrakis-(beta-cyclodextrin) tetrapod, the first example of a new host family, was described, and the ability of the cyclodextrin CyD tetrapod to form molecular association with siRNA and DNA guest molecules was demonstrated. Affinity capillary electrophoresis was used to determine the binding constant with the evaluation of the shift in the electrophoretic mobility mu of injected siRNA when various CyD tetrapod concentrations were added to the run buffer. A significant association constant (K(a) =16,000 M(-1)) was obtained with borate buffer when double-stranded siRNA was primarily opened with the help of temperature. An efficient cellular transfection of siRNA into human embryonic lung fibroblasts was observed by fluorescence microscopy.

摘要

描述了一种新型双（胍鎓）-四（β-环糊精）四足体的简便合成方法，这是一个新宿主家族的首个实例，并证明了环糊精四足体与小干扰RNA（siRNA）和DNA客体分子形成分子缔合的能力。使用亲和毛细管电泳来测定结合常数，方法是在运行缓冲液中加入不同浓度的环糊精四足体时，评估注入的siRNA的电泳迁移率μ的变化。当双链siRNA在温度帮助下基本解链时，在硼酸盐缓冲液中获得了显著的缔合常数（K(a)=16,000 M(-1)）。通过荧光显微镜观察到siRNA有效地转染到人类胚胎肺成纤维细胞中。

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一种新型双（胍鎓）-四（β-环糊精）树枝状四脚体作为潜在基因递送（DNA和siRNA）系统的合成与络合能力。细胞siRNA转染研究。

Synthesis and complexation ability of a novel bis- (guanidinium)-tetrakis-(beta-cyclodextrin) dendrimeric tetrapod as a potential gene delivery (DNA and siRNA) system. Study of cellular siRNA transfection.

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