Ethidium bromide complexes with self-complementary deoxytetranucleotides. Demonstration and discussion of sequence preferences in the intercalative binding of ethidium bromide

Kastrup, Rodney V.; Young, Michael A.; Krugh, Thomas R.

doi:10.1021/bi00616a002

Cited by 87 publications

(38 citation statements)

References 22 publications

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“…The rigidity of the chain prevents occupancy of two adjacent binding sites by rings belonging to the same dimer; then only the noncontiguous CpG sites are filled in a bisintercalated d(CpGpCpG)2-Ditercalinium complex. Such a model agrees with the classical pyrimidine-purine sequence preference displayed by intercalators (9,21) and with the similar upfield shifts induced on both the internal and the external base pair protons.…”

Section: Methodssupporting

confidence: 86%

Geometry of the antitumor drug ditercalinium bisintercalated into d(CpGpCpG)2 by 1H NMR.

Delbarre¹,

Delepierre²,

Garbay³

et al. 1987

Proc. Natl. Acad. Sci. U.S.A.

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Rigid 7H-pyrido[4,3-c]carbazole dimers, such as Ditercalinium, are DNA bisintercalators that display high DNA affinity and strong antitumor properties. This activity appears crucially dependent on the geometry of their complexes with DNA. Therefore, structures of the complexes formed by the self-complementary tetranucleotide d(CpGpCpG) with Ditercalinium and with a related monomer were investigated in 0.1 M [2H]acetate buffer (pH 5.5) by using 400-MHz 1H NMR. In both cases, d(CpGpCpG) retained a right-handed duplex structure as shown by exchangeableproton analysis and intramolecular nuclear Overhauser effect measurements. According to the large upfield shifts measured on the base protons (including the iimino proton) and on the aromatic protons of the pyridocarbazole rings, the monomer appears to monointercalate and the dimer to bisintercalate into the tetranucleotide duplex. Ditercalinium dissociates from its complex about 100-1000 times slower than does the monomer. The negative intermolecular nuclear Overhauser effects observed on protons corresponding to the convex edge of the pyridocarbazole rings when the sugar protons are saturated suggest that both ligands intercalate with their chain oriented to the wide groove side of the helix, a situation mimicking that encountered with repressors. Antitumor activity of 7H-pyridocarbazole derivatives is discussed in terms of geometry of the intercalated complexes., is a potent antitumor 7H-pyridocarbazolium dimer under clinical trials in human cancer chemotherapy (1, 2). As expected for this kind of molecule designed to behave as a small synthetic repressor, Ditercalinium bisintercalates into DNA with a binding affinity greater than 108 M-1 (3). The rigid bipiperidine linker has been selected both to inhibit the intramolecular stacking of the two aromatic rings and to increase the lifetime of the complex by hampering displacement of the ligand along the DNA helix. These factors have been shown to favor the emergence of antitumor properties (4). Despite the presence of a rigid linker, any change in the position of the pyridine nitrogen within the tetracycle as well as replacement of the intercalative 7H-pyridocarbazole moiety by a more elongated ellipticine ring (6H-pyrido [4,3-b] (7), which then was assumed to faithfully mimic DNA. Intercalation of the monomer I and bisintercalation of the dimer H into the tetranucleotide helix was deduced from the large shielding effects undergone by the pyridocarbazole, base, and imino protons in the complexes. Nuclear Overhauser effects (NOE), which can probe short contacts between protons and upfield shifts induced by ring-ring stacking, were used to obtain details on the DNA helix conformation and on the positioning of the intercalated ligands in each complex. At variance with classical intercalating agents or with natural bisintercalative antibiotics, Ditercalinium bisintercalates with its linker protruding into the large groove, a situation which mimics that encountered with repressors. MATERIALS AND METHODSThe deoxyt...

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Section: Methodssupporting

confidence: 86%

Geometry of the antitumor drug ditercalinium bisintercalated into d(CpGpCpG)2 by 1H NMR.

Delbarre¹,

Delepierre²,

Garbay³

et al. 1987

Proc. Natl. Acad. Sci. U.S.A.

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“…It is possible that their accompanying diastereomers are present as minor uncharacterized products in our chromatographic system. Also, a .. MOP.-F41 may consist of more than a single diastereomer, but complete Such short range sequence specificity has been observed with other intercalating agents such.as ethidium bromide (Kastrup et al, 1978).…”

Section: Analysis By Fdms Gave Identical Results For 8-mop Fractions F38mentioning

confidence: 88%

The psoralen-DNA photoreaction. Characterization of the monoaddition products from 8-methoxypsoralen and 4,5',8-trimethylpsoralen

Kanne¹,

Straub²,

Rapoport³

et al. 1982

Biochemistry

204

129

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“…Although it has been established that ethidium has a preference for binding to pyrimidine(3'-5') purine sequences when compared to purine(3'-5')pyrimidine sequences (9)(10) it has also been shown that the apparent binding affinity of ethidium is not very dependent upon the overall base composition (1-2, 13). The equilibrium binding of ethidium to various native DNAs has been reported (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12), with the binding isotherms presented in these papers being well represented by the nearest neighbor exclusion model (14)(15) Volume 10 Number 24 1982 and Young (16) which showed that daunorubicin and adriamycin facilitated the binding of actinomycin D to poly(dA-dT). poly(dA-dT), a polynucleotide to which actinomycin D does not bind.…”

Section: Introductionmentioning

confidence: 99%

On the cooperative and noncooperative binding of ethidium to DNA

1982

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Ethidium bromide complexes with self-complementary deoxytetranucleotides. Demonstration and discussion of sequence preferences in the intercalative binding of ethidium bromide

Cited by 87 publications

References 22 publications

Geometry of the antitumor drug ditercalinium bisintercalated into d(CpGpCpG)2 by 1H NMR.

Geometry of the antitumor drug ditercalinium bisintercalated into d(CpGpCpG)2 by 1H NMR.

The psoralen-DNA photoreaction. Characterization of the monoaddition products from 8-methoxypsoralen and 4,5',8-trimethylpsoralen

On the cooperative and noncooperative binding of ethidium to DNA

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