C. Barbier scite author profile

Homopyrimidine oligodeoxynucleotides recognize the major groove of the DNA double helix at homopurine-homopyrimidine sequences by forming local triple helices. Phenanthroline was covalently attached to the 5' end of an 1i-mer homopyrimidine oligonucleotide of sequence d(TT-TCCTCCTCT). Simian virus 40 DNA, which contains a single target site for this oligonucleotide, was used as a substrate for the phenanthroline-oligonucleotide conjugate. In the presence of copper ions and a reducing agent, a single specific doublestrand cleavage site was observed at 20'C by agarose gel electrophoresis. The efficiency of double-strand cleavage was >70% at 20'C and pH 7.4. Secondary cleavage sites were observed when binding of the oligonucleotide to mismatched sequences was allowed to take place at low temperature. The exact location of the cleavage sites was determined by polyacrylamide gel electrophoresis of denatured fragments by using both simian virus 40 DNA and a synthetic DNA fragment containing the target sequence. The asymmetric distribution of the cleavage sites on the two strands revealed that the cleavage reaction took place in the minor groove even though the phenanthroline linker was located in the major groove. Linkers of different lengths were used to tether phenanthroline to the oligonucleotide and their relative efficacies of DNA cleavage were compared. Based on these comparative studies and on model building, it is proposed that the phenanthroline ring carried by the oligonucleotide intercalates from the major groove and that copper chelation locks the complex in place from within the minor groove where the cleavage reaction occurs.

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Oligothymidylates covalently linked to an acridine derivative and with modified phosphodiester backbone: circular dichroism studies of their Interactions with complementary sequences

Durand¹,

Maurizot²,

Asseline³

et al. 1989

Nucl Acids Res

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Oligothymidylates involving alternating alkyl phosphotriester-phosphodiester or methylphosphonate-phosphodiester backbones and covalently linked to an acridine derivative have been studied using circular dichroism. Two isomers with the same diastereoisomeric configuration for all the phosphotriesters (ethyl triester and neopentyl triester) or the methylphosphonate linkages were studied. These six compounds were compared to the parent oligonucleotide with unmodified phosphodiester bonds. Intramolecular interactions between the acridine and the bases of the oligonucleotides were revealed by the induced circular dichroism of the acridine dye. Binding to poly(rA) and poly(dA) induced large changes in the circular dichroism signal. All oligothymidylates formed double-stranded complexes with poly(rA). Substitution of phosphotriesters and methylphosphonates to phosphates allowed both double- and triple-stranded structures to be formed with with poly(dA). The double-stranded structures formed with poly(rA) and poly(dA) were characterized by different environments of the acridine dye. The circular dichroism spectra of the complexes with poly(dA) and the thermal stabilities of the complexes formed with both poly(rA) and poly(dA) were drastically dependent of the diastereoisomeric configuration of the phosphate modification. For the complexes formed with the pseudoequatorial stereoisomer the modification of the phosphate groups increased the stability of the complexes as compared with the oligothymidylate containing only phosphodiester linkages whereas it decreased it for pseudoaxial modifications.

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Oligothymidylates Comportant La Structure Alternee Alkylphosphotriester-Phosphodiester Et Lies De Facon Covalente A Un Agent Intercalant

Asseline¹,

Barbier²,

Thuong³

1986

Phosphorous and Sulfur and the Related Elements

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Half a Century Of Hybridization‡‡dedicated to Professor G. Del Re

Barbier¹,

Berthier²

2000

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Interaction of CH3OH with α-MoO3 finite clusters, a theoretical study

Rahmouni

Barbier

1995

Journal of Molecular Structure: THEOCHEM

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C. Barbier

Sequence-specific recognition and cleavage of duplex DNA via triple-helix formation by oligonucleotides covalently linked to a phenanthroline-copper chelate.

Oligothymidylates covalently linked to an acridine derivative and with modified phosphodiester backbone: circular dichroism studies of their Interactions with complementary sequences

Oligothymidylates Comportant La Structure Alternee Alkylphosphotriester-Phosphodiester Et Lies De Facon Covalente A Un Agent Intercalant

Half a Century Of Hybridization‡‡dedicated to Professor G. Del Re

Interaction of CH3OH with α-MoO3 finite clusters, a theoretical study

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