Wright Jones scite author profile

The refined solution structure for the 8, 9-dihydro-8-(N7-guanyl)-9-hydroxyaflatoxin B1 adduct was refined from the oligodeoxynucleotide duplex d(TATAFBGCATA)2 using a molecular dynamics protocol restrained by NOE data obtained from 1H NMR and compared with the refined structure of the unmodified oligomer, d(TATGCATA)2. The two aflatoxin B1 (AFB1) moieties were symmetry related by the pseudodyad axis of the self-complementary oligodeoxynucleotide. Each AFB1 intercalated into the helix above the 5'-face of the modified guanine, corroborating NMR spectroscopic data [Gopalakrishnan, S., Harris, T. M., and Stone, M. P. (1990) Intercalation of Aflatoxin B1 in Two Oligodeoxynucleotide Adducts: Comparative 1H NMR Analysis of d(ATCAFBGAT).d(ATCGAT) and d(ATAFBGCAT)2 Biochemistry 29, 10438-10448]. Molecular dynamics calculations restrained with 292 experimentally and empirically derived distances refined a family of structures characterized by pairwise root mean square differences of <1.3 A. Complete relaxation matrix calculations yielded a sixth root residual of 11 x 10(-2). Comparison of the refined structure with that of the corresponding unmodified oligodeoxynucleotide suggested that the two AFB1 adducts introduced a perturbation of the DNA localized at the two sites of adduction. The calculations predicted that each adduct introduced a "kink" into the DNA helical axis. However, the pseudodyad symmetry relating the two intercalation sites resulted in no net bending of the DNA. The results suggest the possibility that AFB1 lesions at adjacent guanines in the 5'-GC-3' sequence may be recognized or processed differently than are isolated AFB1 lesions.

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DNA Abasic Lesions in a Different Light: Solution Structure of an Endogenous Topoisomerase II Poison

Cline

Jones

Stone

et al. 1999

Biochemistry

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Topoisomerase II is the target for several anticancer drugs that "poison" the enzyme and convert it to a cellular toxin by increasing topoisomerase II-mediated DNA cleavage. In addition to these "exogenous topoisomerase II poisons," DNA lesions such as abasic sites act as "endogenous poisons" of the enzyme. Drugs and lesions are believed to stimulate DNA scission by altering the structure of the double helix within the cleavage site of the enzyme. However, the structural alterations that enhance cleavage are unknown. Since abasic sites are an intrinsic part of the genetic material, they represent an attractive model to assess DNA distortions that lead to altered topoisomerase II function. Therefore, the structure of a double-stranded dodecamer containing a tetrahydrofuran apurinic lesion at the +2 position of a topoisomerase II DNA cleavage site was determined by NMR spectroscopy. Three major features distinguished the apurinic structure ( = 0.095) from that of wild-type ( = 0.077). First, loss of base stacking at the lesion collapsed the major groove and reduced the distance between the two scissile phosphodiester bonds. Second, the apurinic lesion induced a bend that was centered about the topoisomerase II cleavage site. Third, the base immediately opposite the lesion was extrahelical and relocated to the minor groove. All of these structural alterations have the potential to influence interactions between topoisomerase II and its DNA substrate.

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Site-specific targeting of aflatoxin adduction directed by triple helix formation in the major groove of oligodeoxyribonucleotides

Jones

1998

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The targeted adduction of aflatoxin B1- exo -8,9-epoxide (AFB1- exo -8,9-epoxide) to a specific guanine within an oligodeoxyribonucleotide containing multiple guanines was achieved using a DNA triplex to control sequence selectivity. The oligodeoxyribonucleotide d(AGAGAAGATTTTCTTCTCTTTTTTTTCTCTT), designated '3G', spontaneously formed a triplex in which nucleotides C27*G2*C18 and C29*G4*C16 formed base triplets, and nucleotides G7*C13formed a Watson-Crick base pair. The oligodeoxyribonucleotide d(AAGAAATTTTTTCTTTTTTTTTTCTT), designated '1G', also formed a triplex in which nucleotides C24*G3*C24 formed a triplet. Reaction of the two oligodeoxyribonucleotides with AFB1-exo-8,9-epoxide revealed that only the 3G sequence formed an adduct, as determined by UV absorbance and piperidine cleavage of the 5'-labeled adduct, followed by denaturing polyacrylamide gel electrophoresis. This site was identified as G7by comparison to the guanine-specific cleavage pattern. The chemistry was extended to a series of nicked bimolecular triple helices, constructed from d(AAAGGGGGAA) and d(CnTTCTTTTTCCCCCTTTATTTTTTC5-n) (n = 1-5). Each oligomer in the series differed only in the placement of the nick. Reaction of the nicked triplexes with AFB1- exo -8,9-epoxide, piperidine cleavage of the 5'-labeled adduct, followed by denaturing polyacrylamide gel electrophoresis, revealed cleavage corresponding to the guanine closest to the pyrimidine strand nick. By using the appropriate pyrimidine sequence the lesion was positioned within the purine strand.

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DNA Oxidation as a Source of Endogenous Electrophiles: Formation of Ethenoadenine Adducts in γ-Irradiated DNA

Jones

Dedon

1999

J. Am. Chem. Soc.

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Wright Jones

Uptake, recycling, and antioxidant actions of α-lipoic acid in endothelial cells

Refined Structure of the Doubly Intercalated d(TAT^AFBGCATA)₂ Aflatoxin B₁ Adduct

DNA Abasic Lesions in a Different Light: Solution Structure of an Endogenous Topoisomerase II Poison

Site-specific targeting of aflatoxin adduction directed by triple helix formation in the major groove of oligodeoxyribonucleotides

DNA Oxidation as a Source of Endogenous Electrophiles: Formation of Ethenoadenine Adducts in γ-Irradiated DNA

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Wright Jones

Uptake, recycling, and antioxidant actions of α-lipoic acid in endothelial cells

Refined Structure of the Doubly Intercalated d(TATAFBGCATA)2 Aflatoxin B1 Adduct

DNA Abasic Lesions in a Different Light: Solution Structure of an Endogenous Topoisomerase II Poison

Site-specific targeting of aflatoxin adduction directed by triple helix formation in the major groove of oligodeoxyribonucleotides

DNA Oxidation as a Source of Endogenous Electrophiles: Formation of Ethenoadenine Adducts in γ-Irradiated DNA

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Product

Resources

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Refined Structure of the Doubly Intercalated d(TAT^AFBGCATA)₂ Aflatoxin B₁ Adduct