Davina C. Ananias scite author profile

Davina C. Ananias

2Publications

101Citation Statements Received

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Indiana University – Purdue University Indianapolis

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Ni(II)·Xaa-Xaa-His Induced DNA Cleavage: Deoxyribose Modification by a Common “Activated” Intermediate Derived from KHSO₅, MMPP, or H₂O₂

1998

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Ni(II) chelated peptides of the form NH2-Xaa-Xaa-His-CONH2 (Ni(II)·Xaa-Xaa-His) mediate deoxyribose damage through C4‘−H abstraction of a targeted nucleotide when activated with KHSO5 (oxone), MMPP (magnesium monoperoxyphthalate), or H2O2. The products released and identified in comparison to the authentic C4‘−H oxidant Fe(II)·bleomycin included fragmented DNA terminating in 5‘-phosphates, 3‘-phosphates, and 3‘-phosphoglycolates; upon treatment of Ni(II)·Xaa-Xaa-His cleavage reactions with NaOH or NH2NH2, fragmented DNA 3‘-termini were released consistent with the intermediate formation of keto-aldehyde abasic (alkaline-labile) sites. In addition, nucleobases and nucleobase propenals were detected in proportions consistent with abasic site and 3‘-phosphoglycolate termini formation, respectively. These results indicate that Ni(II)·Xaa-Xaa-His metallopeptides, like Fe(II)·bleomycin, degrade DNA through two pathways resulting from an initial C4‘−H modification. Importantly, the partitioning between these two pathways appears to be dependent on the structure of the Ni(II)·Xaa-Xaa-His metallopeptide employed in the cleavage reaction and the nucleotide sequence targeted. Further studies also indicate that metallopeptide activation with KHSO5, MMPP, or H2O2 yields identical reaction products and sequence-selective DNA cleavage suggesting the formation of a common “activated” metallopeptide responsible for C4‘−H deoxyribose damage, quite possibly a metal-bound hydroxyl radical. These studies also demonstrate that metallopeptide activation with KHSO5 is condition- dependent resulting in (1) C4‘−H damage in common with MMPP or H2O2 under relatively “low” ionic strength conditions (10 mM Na-cacodylate, pH 7.5, equimolar KHSO5/metallopeptide) or (2) guanine nucleobase oxidation under higher ionic strength conditions (100 mM NaCl, 10 mM phosphate, pH 7.0, excess KHSO5).

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DNA Strand Scission by Dioxygen + Light-Activated Cobalt Metallopeptides

Ananias

Long

1997

Inorg. Chem.

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Co(II) complexes of H2N-Xaa-Gly-His-CONH2 peptides (Xaa = Gly or Lys) mediate DNA cleavage upon their oxidation to Co(III)·Xaa-Gly-His with ambient dioxygen and subsequent irradiation. DNA cleavage does not appear to occur through diffusible radical formation but, more likely, through a DNA-bound metallopeptide that produces locally-reactive hydroxyl radicals. These data suggest a method for activating metallopeptides that does not require the addition of exogenous chemical oxidants or reductants.

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Davina C. Ananias

Ni(II)·Xaa-Xaa-His Induced DNA Cleavage: Deoxyribose Modification by a Common “Activated” Intermediate Derived from KHSO₅, MMPP, or H₂O₂

DNA Strand Scission by Dioxygen + Light-Activated Cobalt Metallopeptides

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Davina C. Ananias

Ni(II)·Xaa-Xaa-His Induced DNA Cleavage: Deoxyribose Modification by a Common “Activated” Intermediate Derived from KHSO5, MMPP, or H2O2

DNA Strand Scission by Dioxygen + Light-Activated Cobalt Metallopeptides

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Product

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Ni(II)·Xaa-Xaa-His Induced DNA Cleavage: Deoxyribose Modification by a Common “Activated” Intermediate Derived from KHSO₅, MMPP, or H₂O₂