Linda M. Eckel scite author profile

One- and two-dimensional NMR spectroscopy and energy minimization calculations were used to investigate the conformation of a 2-aminofluorene- (AF-) modified model human c-H-ras1 protooncogene codon 61 deoxyoligonucleotide duplex, d(C1-A2-C3-C4-A5- [AF-G6]-G7-A8-A9-C10).-d(G11-T12-T13-C14-C15-T16 -G17-G18-T19-G20), in which the AF adduct is located at the third base of codon 61 with cytosine as the complementary nucleotide. Two interchangeable conformations of the AF-modified duplex, referred to as the external-AF conformation and the inserted-AF conformation, were determined from the NMR data. An analysis of the coalescence of resonances led to the estimation that the chemical exchange lifetime is greater than 3 ms but less than 20 ms at 30 degrees C, pH 7. In the external-AF conformation, Watson-Crick base-pair formation is observed for all 10 complementary nucleotides, including the AF-G6.C15 base pair. In the inserted-AF conformation, 9 of the 10 complementary bases form Watson-Crick base pairs; the AF-G6 imino proton exhibits no evidence of hydrogen bond formation with its complementary cytosine. Several NOEs between aminofluorene protons and DNA protons show that the AF moiety in the inserted-AF conformation stacks between the adjacent A5.T16 and G7.C14 base pairs. Solvated energy minimization calculations using distance restraints obtained from NOESY data at 2 degrees C with a 100-ms mixing time were performed to obtain representative structures of the external-AF and inserted-AF conformations. The external-AF conformer has the AF moiety protruding out of the major groove of a relatively unperturbed DNA duplex, leaving intact Watson-Crick base pairing for the AF-G6.C15 bases. Thus, the external-AF conformer may represent a visualization of a conformation that allows faithful replication. The inserted-AF conformer has the AF moiety stacked within the DNA helix, breaking the Watson-Crick base pairing of the modified guanine and its complementary cytosine and displacing the guanine and cytosine into the grooves. We label the inserted-AF conformer as a premutagenic conformation to reflect the displacement of the modified guanine. Interconversion between the structurally distinct external-AF and inserted-AF conformers takes place on a time scale of the same order as DNA replication. We have labeled this interconversion as a mutagenic switch to highlight a possible conformational equilibrium that may be important in replication.

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2–Aminofluorene modified DNA duplex exists in two interchangeable conformations

Eckel

Krugh

1994

Nat Struct Mol Biol

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One- and two-dimensional NMR shows that the carcinogen 2-aminofluorene exists in two unique, interchangeable conformations when covalently bound to a model human c-H-ras1 proto-oncogene codon 61 oligomer duplex. In one conformation the 2-aminofluorene moiety protrudes out of the major groove leaving the Watson-Crick base pairing of the cytosine and 2-aminofluorene-guanine bases intact, consistent with the ability of replicating enzymes to bypass the lesion and correctly incorporate cytosine. The second form of the modified oligomer duplex may be representative of a pre-mutagenic conformation in that the 2-aminofluorene moiety is stacked within the DNA helix, disrupting base pairing between the 2-aminofluorene-modified guanine and its complementary cytosine.

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Adenosine dialdehyde analogs I: Regioselective synthesis of adenosine monoaldehydes

Neenan

Opitz

Cooke

et al. 1996

Bioorganic & Medicinal Chemistry Letters

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ChemInform Abstract: Adenosine Dialdehyde Analogues. Part 1. Regioselective Synthesis of Adenosine Monoaldehydes.

et al. 1996

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Linda M. Eckel

Structural Characterization of Two Interchangeable Conformations of an N-2-Aminofluorene-Modified DNA Oligomer by NMR and Energy Minimization

2–Aminofluorene modified DNA duplex exists in two interchangeable conformations

Adenosine dialdehyde analogs I: Regioselective synthesis of adenosine monoaldehydes

ChemInform Abstract: Adenosine Dialdehyde Analogues. Part 1. Regioselective Synthesis of Adenosine Monoaldehydes.

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