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长RNA悬垂端对双链稳定性有很大的能量贡献。

Long RNA dangling end has large energetic contribution to duplex stability.

作者信息

Ohmichi Tatsuo, Nakano Shu-Ichi, Miyoshi Daisuke, Sugimoto Naoki

机构信息

High Technology Research Center and Department of Chemistry, Faculty of Science and Engineering, Konan University, 8-9-1 Okamoto, Higashinada-ku, Kobe 658-8501, Japan.

出版信息

J Am Chem Soc. 2002 Sep 4;124(35):10367-72. doi: 10.1021/ja0255406.

Abstract

Long terminal unpaired nucleotides known as dangling ends play interesting roles in biological systems. Previous studies, however, only dealt with the energy contributions of single dangling bases. The energy contributions of long dangling ends on the stability of duplexes have not been systematically studied. We now report a quantitative increase in stability of RNA-RNA and DNA-DNA duplexes containing a long dangling end. We found a larger enhancement of the stability by the long RNA dangling end of the RNA-RNA duplex than has been observed for the DNA duplexes. It is also found that structural stabilizations by long dangling ends seem to originate from the single-stranded stacking interactions of nucleotides. These results indicate that RNA stability can be achieved by increasing the length of the dangling end. The thermodynamic parameters of the long dangling ends are useful for designing ribozymes and antisense oligonucleotides, and for the prediction of the RNA secondary structure like the pseudoknot.

摘要

被称为悬垂末端的长末端不成对核苷酸在生物系统中发挥着有趣的作用。然而,先前的研究仅涉及单个悬垂碱基的能量贡献。长悬垂末端对双链体稳定性的能量贡献尚未得到系统研究。我们现在报告了含有长悬垂末端的RNA-RNA和DNA-DNA双链体稳定性的定量增加。我们发现,与DNA双链体相比,RNA-RNA双链体的长RNA悬垂末端对稳定性的增强作用更大。还发现长悬垂末端引起的结构稳定似乎源于核苷酸的单链堆积相互作用。这些结果表明,通过增加悬垂末端的长度可以实现RNA的稳定性。长悬垂末端的热力学参数对于设计核酶和反义寡核苷酸以及预测RNA二级结构(如假结)很有用。

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