Association Patterns of Platinated Purine Nucleobases in Metal-Modified Pairs and Triples

Association Patterns of Platinated Purine Nucleobases in Metal-Modified Pairs and Triples

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 = N...

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Veröffentlicht in:Inorganic chemistry 2002-11, Vol.41 (23), p.5946-5953
Hauptverfasser: Roitzsch, Michael, Rother, Irene B, Willermann, Michael, Erxleben, Andrea, Costisella, Burkhard, Lippert, Bernhard
Format: Artikel
Sprache:eng
Schlagworte:
Base Pairing
Chemical Phenomena
Chemistry, Physical
Crystallography, X-Ray
Electron Spin Resonance Spectroscopy
Guanine - chemistry
Hydrogen Bonding
Magnetic Resonance Spectroscopy
Molecular Structure
Nucleic Acid Conformation
Organoplatinum Compounds - chemistry
Purines - chemistry
Stereoisomerism
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Zusammenfassung: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)](NO3)2 (1a), trans-[(NH3)2Pt(9-EtA-N1)(9-MeGH-N7)](ClO4)2 (1b), and trans,trans-[(CH3NH2)2(9-MeGH-N7)Pt(N1-9-MeA-N7)Pt(9-MeGH-N7)(CH3NH2)2](ClO4)4·2H2O (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.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic020403v