Rodger A, Sanders K J, Hannon M J, Meistermann I, Parkinson A, Vidler D S, Haworth I S
Department of Chemistry, University of Warwick, Coventry, UK.
Chirality. 2000 May;12(4):221-36. doi: 10.1002/(SICI)1520-636X(2000)12:4<221::AID-CHIR9>3.0.CO;2-3.
Many polycationic species bind to DNA and induce structural changes. The work reported here is the first phase of a program whose long-term aim is to create a class of simple and inexpensive sequence-selective compounds that will enable enhanced DNA structure control for a wide range of applications. Three classes of molecule have been included in this work: the polyamine spermine (charge: 4(+)) and spermidine (charge: 3(+)) (which are known to induce a wide range of DNA conformational changes but whose binding modes are still not well understood); cobalt (III) amine transition metal complexes as potential polyamine mimics and Fe(H(2)O)(6); and the first member of a new class of di-metallo tris-chelated cylinders of helical structure (charge 4(+)). Temperature-dependent absorption, circular dichroism, linear dichroism, gel electrophoresis, and molecular modeling data are presented. The cobalt amines prove to be effective polyamine mimics, although their binding appears to be restricted to backbone and major groove. All the ligands stabilize the DNA, but the 4(+) di-iron tris-chelate does so comparatively weakly and seems to have a preference for single-stranded DNA. All the molecules studied bend the DNA, with the di-iron tris-chelate having a particularly dramatic effect even at very low drug load.
许多聚阳离子物种会与DNA结合并诱导结构变化。本文报道的工作是一个项目的第一阶段,该项目的长期目标是开发一类简单且廉价的序列选择性化合物,以实现对DNA结构更有效的控制,从而广泛应用于各种领域。这项工作涵盖了三类分子:多胺精胺(电荷:4(+))和亚精胺(电荷:3(+))(已知它们会诱导多种DNA构象变化,但其结合模式仍未完全明确);作为潜在多胺模拟物的钴(III)胺过渡金属配合物以及[Fe(H₂O)₆]³⁺;还有一类新型的具有螺旋结构的双金属三螯合圆柱体的首个成员(电荷4(+))。文中给出了温度依赖性吸收光谱、圆二色性、线性二色性、凝胶电泳和分子模拟数据。钴胺被证明是有效的多胺模拟物,尽管它们的结合似乎仅限于DNA主链和大沟。所有配体都能使DNA稳定,但4(+)双铁三螯合物的稳定作用相对较弱,且似乎更倾向于单链DNA。所有研究的分子都会使DNA弯曲,双铁三螯合物即使在药物负载量很低时也会产生特别显著的效果。
