Valery N. Soyfer scite author profile

A differential effect is found of various bivalent cations (Ba2+, Ca2+, Mg2+, Cd2+, Co2+, Mn2+, Ni2+, Zn2+ and Hg2+) on stability of intermolecular Py-Pu-Pu triplex with different sequence of base triads. Ca2+, Mg2+, Cd2+, Co2+, Mn2+, Ni2+ and Zn2+ do stabilize the d(C)n d(G)n d(G)n triplex whereas Ba2+ and Hg2+ do not. Ba2+, Ca2+, Mg2+ and Hg2+ destabilize the d(TC)n d(GA)n d(AG)n triplex whereas Cd2+, Co2+, Mn2+, Ni2+ and Zn2+ stabilize it. The complexes we observe are rather stable because they do not dissociate during time of gel electrophoresis in the co-migration experiments. Chemical probing experiments with dimethyl sulfate as a probe indicate that an arbitrary homopurine-homopyrimidine sequence forms triplex with corresponding purine oligonucleotide in the presence of Mn2+ or Zn2+, but not Mg2+. In the complex the purine oligonucleotide has antiparallel orientation with respect to the purine strand of the duplex. Specifically, we have shown the formation of the Py-Pu-Pu triplex in a fragment of human papilloma virus HPV-16 in the presence of Mn2+.

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Protection against UV-induced pyrimidine dimerization in DNA by triplex formation

Lyamichev

Frank‐Kamenetskii

Soyfer

1990

Nature

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Cyclobutane and [6-4]-pyrimidine dimers are major photoproducts of ultraviolet-irradiated DNA. The yield of these photoproducts is dependent on the sequence and structure of the DNA. By analysing the photofootprints of fragments produced by cleavage of the DNA chain near [6-4]-pyrimidine dimers, we show here that a homopurine-homopyrimidine insert (with either d(TC)x or d(C)n) in plasmid pUC19 is, as expected, a good target for UV-induced pyrimidine-dimer formation. But we find that dimerization is virtually completely suppressed when the pyrimidine oligonucleotides d(TC)y or d(C)m are added to DNA carrying d(TC)x- or d(C)n-containing inserts, respectively. This effect is dependent on the type of oligonucleotide used and is site-specific. The protection occurs under acidic conditions that favour the formation of intermolecular triplexes between the homopurine-homopyrimidine inserts and homologous oligopyrimidines. We therefore conclude that triplex formation effectively protects the DNA duplex from UV-induced damage (pyrimidine dimerization). This observation makes the photofootprinting assay a very promising method for studying intermolecular and intramolecular triplexes (H-form DNA) both in vitro and in vivo.

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Photofootprinting of DNA triplexes

et al. 1991

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We have used a photofootprinting assay to study intermolecular and intramolecular DNA triplexes. The assay is based on the fact that the DNA duplex is protected against photodamage (specifically, against the formation of the (6-4) pyrimidine photoproducts) within a triplex structure. We have shown that this is the case for PyPuPu (YRR) as well as PyPuPy (YRY) triplexes. Using the photofootprinting assay, we have studied the triplex formation under a variety of experimentally defined conditions. At acid pH, d(C)n.d(G)n.d(C)n and d(CT)n.d(GA)n.d(CT)n triplexes are detected by this method. The d(CT)n.d(GA)n.d(CT)n triplexes are additionally stabilized by divalent cations and spermidine. PyPuPu triplexes are pH-independent and are stabilized by divalent cations, such as Mg++ and Zn++. The effect depends on the type of cation and on the DNA sequence. The d(CT)n.d(GA)n.d(GA)n triplex is stabilized by Zn++, but not by Mg++, whereas the d(C)n.d(G)n.d(G)n triplex is stabilized by Mg++. In H-DNA, virtually the entire pyrimidine chain is protected against photodimerization, whereas only half of the pyrimidine chain participating in a triplex is protected in the CGG intramolecular triplex.

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Protonated pyrimidine-purine-purine triplex

et al. 1993

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We have studied a protonated pyrimidine-purine-purine (Py-Pu-Pu) triplex, which is formed between the d(C)nd(G)n duplex and the d(AG)m oligonucleotide as the third strand and carries the CG*A+ protonated base-triads. We have observed such an intermolecular complex between a plasmid carrying the d(C)18 d(G)18 insert and the d(AG)5 oligonucleotide without bivalent cations in 200 mM of Na+ at pH4.0. Bivalent cations additionally stabilize the complex. We propose the structures for nearly isomorphous base-triads TA*A, CG*G and CG*A+. To identify the H-DNA-like structure, which includes the triplex between d(C)n d(G)n duplex and the AG-strand, we have cloned in a superhelical plasmid the insert: G10TTAA(AG)5. The data on photofootprinting and chemical modification with diethyl pyrocarbonate, potassium permanganate and dimethyl sulfate demonstrate that the H-like structure with triplex carrying CG*G and CG*A+ base triads is actually formed under acid conditions. In the course of this study we have come across unexpected results on probing of Py-Pu-Pu triplexes by dimethyl sulfate (DMS): the protection effect is observed not only for guanines entering the duplex but also for guanines in the third strand lying in the major groove. We have demonstrated this effect not only for the case the novel protonated Py-Pu-Pu triplex but also for the traditional non-protonated Py-Pu-Pu intramolecular triplex (H*-DNA) formed by the d(C)37 d(G)37 insert in supercoiled plasmid in the presence of Mg2+ ions.

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Valery N. Soyfer

Triple-Helical Nucleic Acids

Cation and sequence effects on stability of intermolecular pyrimidine-purine-purine triplex

Protection against UV-induced pyrimidine dimerization in DNA by triplex formation

Photofootprinting of DNA triplexes

Protonated pyrimidine-purine-purine triplex

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