E. B. Brossalina scite author profile

We have investigated the binding of a 26-mer antisense oligodeoxynucleotide to a 69-mer DNA hairpin with a 13 base pair stem, bearing an Rsa1 restriction site. The 5' part of the 26-mer annealed to a stretch of six purines at the bottom of the hairpin. The 3' part was designed to fold back to form a triplex with both the stem of the hairpin and with the sequence paired to its own 5' region. Using non-denaturing polyacrylamide gel electrophoresis, melting curves (Tm) and chemical footprinting, we were able to show the formation of a 'double-hairpin' complex between the 69-mer and the 26-mer antisense oligopyrimidines. The association was both sequence and pH-dependent. The formation of a double hairpin complex was shown to prevent the alkylation of the 69-mer DNA target by an oligonucleotide-nitrogen mustard conjugate and to selectively inhibit the action of Rsa1.

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Targeting RNA structures by antisense oligonucleotides

Toulmé

Tinévez

Brossalina

1996

Biochimie

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Sequence-Specific Alkylation of dsDNA with Derivatives of Pyrimidine Oligonucleotides Conjugated to 2-Chloroethylamine Groups

Brossalina¹,

Демченко²,

Vlassov³

et al. 1991

Antisense Research and Development

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Reaction of homopyrimidine oligonucleotides bearing a 5'-terminal alkylating aromatic 2-chloroethyl-amino group with a bovine papilloma vector expressing human interferon-gamma was investigated. The oligonucleotide derivatives bound to corresponding homopurine-homopyrimidine sequences in dsDNA and alkylated guanosine residues at these sites in the purine strand of the target. The alkylated DNA can be cleaved at the modified residues. At pH 5.4, the reaction was highly specific to the target sequences; at pH less than 5, some nonspecific reactions were observed at the sequences partially complementary to the oligonucleotides. Elongation of the linker between the alkylating group and the oligonucleotide phosphate increased the alkylation efficiency. Repeated treatment of the DNA with gradually increased concentrations of the reagent resulted in quantitative modification of the target guanosines.

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E. B. Brossalina

A DNA hairpin as a target for antisense oligonucleotides

The binding of an antisense oligonucleotide to a hairpin structure via triplex formation inhibits chemical and biological reactions

Targeting RNA structures by antisense oligonucleotides

Sequence-Specific Alkylation of dsDNA with Derivatives of Pyrimidine Oligonucleotides Conjugated to 2-Chloroethylamine Groups

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