金属修饰的碱基对和三联体中铂化嘌呤核苷酸碱基的缔合模式。

Association patterns of platinated purine nucleobases in metal-modified pairs and triples.

作者信息

Roitzsch Michael, Rother Irene B, Willermann Michael, Erxleben Andrea, Costisella Burkhard, Lippert Bernhard

机构信息

Fachbereich Chemie, Universität Dortmund, 44221 Dortmund, Germany.

出版信息

Inorg Chem. 2002 Nov 18;41(23):5946-53. doi: 10.1021/ic020403v.

DOI:10.1021/ic020403v

PMID:12425619

Abstract

Blocking of Watson-Crick or Hoogsteen edges in purine nucleobases by a metal entity precludes involvement of these sites in interbase hydrogen bonding, thereby leaving the respective other edge or the sugar edge as potential H bonding sites. In mixed guanine, adenine complexes of trans-a2PtII (a = NH3 or CH3NH2) of composition trans-(NH3)2Pt(9-EtA-N1)(9-MeGH-N7)2 (1a), trans-(NH3)2Pt(9-EtA-N1)(9-MeGH-N7)2 (1b), and trans,trans-(CH3NH2)2(9-MeGH-N7)Pt(N1-9-MeA-N7)Pt(9-MeGH-N7)(CH3NH2)24*2H2O (2) (with 9-EtA = 9-ethyladenine, 9-MeA= 9-methyladenine, 9-MeGH = 9-methylguanine), this aspect is studied. Thus, in 1b pairing of two adenine ligands via Hoogsteen edges and in 2 pairing of two guanine bases via sugar edges is realized. These situations are compared with those found in a series of related complexes.

摘要

嘌呤核碱基中的沃森-克里克（Watson-Crick）边缘或 hoogsteen 边缘被金属实体阻断，会阻止这些位点参与碱基间的氢键形成，从而使相应的另一条边缘或糖边缘成为潜在的氢键位点。在组成分别为反式-(NH₃)₂Pt(9-EtA-N1)(9-MeGH-N7)₂（1a）、反式-(NH₃)₂Pt(9-EtA-N1)(9-MeGH-N7)₂（1b）和反式，反式-(CH₃NH₂)₂(9-MeGH-N7)Pt(N1-9-MeA-N7)Pt(9-MeGH-N7)(CH₃NH₂)₂₄·2H₂O（2）的反式-a₂PtII（a = NH₃ 或 CH₃NH₂）的混合鸟嘌呤、腺嘌呤配合物中（其中 9-EtA = 9-乙基腺嘌呤，9-MeA = 9-甲基腺嘌呤，9-MeGH = 9-甲基鸟嘌呤），对这一方面进行了研究。因此，在 1b 中通过 Hoogsteen 边缘实现了两个腺嘌呤配体的配对，在 2 中通过糖边缘实现了两个鸟嘌呤碱基的配对。将这些情况与一系列相关配合物中的情况进行了比较。

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金属修饰的碱基对和三联体中铂化嘌呤核苷酸碱基的缔合模式。

Association patterns of platinated purine nucleobases in metal-modified pairs and triples.

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