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具有在端粒DNA中诱导不同G-四链体拓扑结构能力的不对称大环六恶唑化合物的设计与合成。

Design and synthesis of unsymmetric macrocyclic hexaoxazole compounds with an ability to induce distinct G-quadruplex topologies in telomeric DNA.

作者信息

Sakuma Mai, Ma Yue, Tsushima Yamato, Iida Keisuke, Hirokawa Takatsugu, Nagasawa Kazuo

机构信息

Department of Biotechnology and Life Science, Faculty of Technology, Tokyo University of Agriculture and Technology (TUAT), Koganei, Tokyo 184-8588, Japan.

出版信息

Org Biomol Chem. 2016 Jun 14;14(22):5109-16. doi: 10.1039/c6ob00437g. Epub 2016 May 16.

Abstract

New macrocyclic hexaoxazole compounds bearing two side chains on an unsymmetrical macrocyclic ring system, i.e., 4,2-L2H2-6OTD (2) and 5,1-L2H2-6OTD (3), were designed as candidate G-quadruplex (G4) ligands and synthesized. These G4 ligands 2 and 3 induced an anti-parallel topology and a hybrid-type topology of telomeric DNA, respectively, in contrast to the previously reported symmetrical macrocycle 3,3-L2H2-6OTD (1), which induces a typical anti-parallel structure. Molecular mechanics calculations and docking studies indicate that these differences arise from the different directions of the side chains in these L2H2-6OTD derivatives, and provide an explanation for the weaker stabilization of telomeric DNA by 2 and 3, compared with 1.

摘要

在不对称大环环系上带有两个侧链的新型大环六恶唑化合物,即4,2-L2H2-6OTD(2)和5,1-L2H2-6OTD(3),被设计为候选的G-四链体(G4)配体并进行了合成。与先前报道的诱导典型反平行结构的对称大环3,3-L2H2-6OTD(1)相比,这些G4配体2和3分别诱导了端粒DNA的反平行拓扑结构和杂合型拓扑结构。分子力学计算和对接研究表明,这些差异源于这些L2H2-6OTD衍生物中侧链的不同方向,并解释了与1相比,2和3对端粒DNA的稳定作用较弱的原因。

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