Literature DB >> 8811103

Hydrogen bond geometry in DNA-minor groove binding drug complexes.

L Tabernero1, J Bella, C Alemán.   

Abstract

The geometry of the hydrogen bonding interaction between DNA and minor-groove binding drugs has been analyzed from a sample of 22 crystal structures of DNA-drug complexes, retrieved from the Nucleic Acid Database. Seventy-seven interactions between the drugs and acceptor groups in the nucleotide bases can be classified as hydrogen bonds. Their geometry departs significantly from linearity since, in most instances, the interactions can be described as three-center or multiple hydrogen bonds. Results also show that there is no preference for hydrogen bonds involving positively charged groups in the drugs. Relationships between hydrogen bond geometry and positioning of the drug along the minor groove are also discussed. The information presented may be useful in the design of new specific minor groove binding drugs.

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Year:  1996        PMID: 8811103      PMCID: PMC146115          DOI: 10.1093/nar/24.17.3458

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  30 in total

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Review 6.  Drug-DNA sequence-dependent interactions analysed by electric linear dichroism.

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7.  Refinement of netropsin bound to DNA: bias and feedback in electron density map interpretation.

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8.  Relative binding affinities of distamycin and its analog to d(CGCAAGTTGGC).d(GCCAACTTGCG): comparison of simulation results with experiment.

Authors:  S B Singh; D E Wemmer; P A Kollman
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10.  NMR and molecular modeling studies of the interaction of berenil and pentamidine with d(CGCAAATTTGCG)2.

Authors:  T C Jenkins; A N Lane; S Neidle; D G Brown
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2.  Transcription of DNA containing the 5-guanidino-4-nitroimidazole lesion by human RNA polymerase II and bacteriophage T7 RNA polymerase.

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8.  Molecular dynamics simulations and free energy calculations of netropsin and distamycin binding to an AAAAA DNA binding site.

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9.  Transcription elongation past O6-methylguanine by human RNA polymerase II and bacteriophage T7 RNA polymerase.

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