D. Grier scite author profile

The interaction specificity of salmon sperm DNA with various derivatives of daunorubicin has been studied. The results of binding, viscometric, 1H nuclear magnetic resonance (NMR), flow dichroism, DNA template inhibition, rates of dissociation, and circular dichroism studies are found to be consistent with an intercalation mode of binding of the anthracycline ring as has been shown by other investigators. Moreover, it is observed that (i) strength of binding, (ii) the ease of dissociation of DNA-anthracycline complexes, and (iii) the degree of inhibition of the DNA-dependent RNA polymerase are dependent on the presence of the amino sugar moiety of daunoseamine. The results are consistent with specific H bonding of the amino group of the sugar moiety with DNA as has been suggested earlier by Pigram et al. (Pigram, W.J., Fuller, W., and Hamilton, L.D. (1972), Nature (London), New Biol. 235, 17). Peptide derivatives substituted at the amino sugar function of daunorubicin lower the affinity of the drug to DNA and presumably interfere with the "full insertion" of the anthracycline drugs between base pairs of DNA. The significance of these findings in relation to the biological efficacy of daunorubicin and related derivatives as antileukemic agents is discussed.

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Structure-activity relation of daunorubicin and its peptide derivatives

Wilson¹,

Grier²,

Reimer³

et al. 1976

J. Med. Chem.

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The synthesis of potentially specific antitumor peptide derivatives of daunorubicin is presented. The interaction specificites of the drugs with nucleic acids have been examined via stop-flow kinetics as well as the inhibition of DNA template activity. It is found that the biological activity of the daunorubicin derivatives against the mouse P388 tumor is directly proportional to RNA polymerase inhibition and inversely proportional to the rate of dissociation of the DNA complex. It is concluded that the biological efficacy of drugs which act at the replicative and transcriptional level may be estimated by the more rapid in vitro techniques provided that problems of permeability, solubility, stability, etc., in vivo are not encountered.

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Ultraviolet Light-Induced Recovery in Escherichia coli of γ-Irradiated Bacteriophage DNA

Silber¹,

Grier²,

Achey³

1979

Radiation Research

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ChemInform Abstract: STRUCTURE‐ACTIVITY RELATION OF DAUNORUBICIN AND ITS PEPTIDE DERIVATIVES

Wilson¹,

Grier²,

Reimer³

et al. 1976

Chemischer Informationsdienst

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D. Grier

Interaction specificity of the anthracyclines with deoxyribonucleic acid

Structure-activity relation of daunorubicin and its peptide derivatives

Ultraviolet Light-Induced Recovery in Escherichia coli of γ-Irradiated Bacteriophage DNA

ChemInform Abstract: STRUCTURE‐ACTIVITY RELATION OF DAUNORUBICIN AND ITS PEPTIDE DERIVATIVES

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