Nina G. Dolinnaya scite author profile

An efficient method for producing the covalent closure of oligonucleotides on complementary templates by the action of BrCN was developed. A rational design of linear precursor oligonucleotides was studied, and the effect of factors such as oligonucleotide concentration and oligomer-template length ratio was evaluated. The efficiency of circularization was shown to correlate well with the secondary structure of the precursor oligomer (as predicted by a simple computer analysis), hairpin-like structures bearing free termini clearly favouring the circularization reaction. A novel idea, consisting of the incorporation of non-nucleotide insertions in the precursor oligomer (namely, 1,2-dideoxy-D-ribofuranose residues), may render this method universal and highly effective. An original set of assays was developed to confirm the circular structure of the covalently closed oligonucleotides.

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Structure, properties, and biological relevance of the DNA and RNA G-quadruplexes: Overview 50 years after their discovery

Dolinnaya

Ogloblina²,

Yakubovskaya³

2016

Biochemistry Moscow

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G-quadruplexes (G4s), which are known to have important roles in regulation of key biological processes in both normal and pathological cells, are the most actively studied non-canonical structures of nucleic acids. In this review, we summarize the results of studies published in recent years that change significantly scientific views on various aspects of our understanding of quadruplexes. Modern notions on the polymorphism of DNA quadruplexes, on factors affecting thermodynamics and kinetics of G4 folding-unfolding, on structural organization of multiquadruplex systems, and on conformational features of RNA G4s and hybrid DNA-RNA G4s are discussed. Here we report the data on location of G4 sequence motifs in the genomes of eukaryotes, bacteria, and viruses, characterize G4-specific small-molecule ligands and proteins, as well as the mechanisms of their interactions with quadruplexes. New information on the structure and stability of G4s in telomeric DNA and oncogene promoters is discussed as well as proof being provided on the occurrence of G-quadruplexes in cells. Prominence is given to novel experimental techniques (single molecule manipulations, optical and magnetic tweezers, original chemical approaches, G4 detection in situ, in-cell NMR spectroscopy) that facilitate breakthroughs in the investigation of the structure and functions of G-quadruplexes.

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The use of BrCN for assembling modified DNA duplexes and DNA-RNA hybrids; comparison with water-soluble carbodiimide

et al. 1991

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Both cyanogen bromide (BrCN) and 1-ethyl-3-(3'-dimethylaminopropyl) carbodiimide may be used as coupling reagents for the template-directed assembly of DNA duplexes containing the sugar-phosphate backbone modification. Both reagents show similar ligation site structure-specific trend. Practical recommendations are given for selection of the condensing reagent depending on the properties of the duplex. Based on 31P NMR spectroscopy data, a scheme is suggested for BrCN activation of the nucleotide phosphomonoester group. Using both condensing reagents, we studied the condensation of oligonucleotides containing ribo-segments (from mononucleotide residue to full sequence) on the DNA template. Efficiency of the chemical ligation of RNA oligomers was shown to be much lower than that of DNA analogues. The coupling yield depends on the position of the RNA segment in the hybrid duplexes and on the position of the phosphate group in the nick.

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Conformational Polymorphism of d(A-G)n and Related Oligonucleotide Sequences

Dolinnaya

Fresco

2003

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Single-stranded nucleic acid helical secondary structure stabilized by ionic bonds: d(A(+)-G)10.

Dolinnaya

Fresco

1992

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

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We have identified a type of secondary structure for the homopurine oligomer d(A-G)lo below pH 6 in 0.01 M Nab that is characterized by intense CD but only minor hypochromicity. 290 and 230 nm every 20 from 30 to 890C, and these spectra were used to automatically obtain melting profiles and their derivatives at all wavelengths. Cuvettes with 0.1-, 0.5-, and 1.0-cm pathlengths were used to collect data over a range ofoligomer concentration. Each melting profile was measured at least twice.CD Spectroscopy. CD spectra from 320 to 220 nm between 30 and 700C were recorded on a computer-driven AVIV 62DS CD spectrometer calibrated with (1S)-(+)-10-camphorsulfonic acid (Aldrich) and equipped with a thermostatted cuvette holder whose temperature was adjusted with a circulating bath. The cell compartment was continuously purged with dry N2. Digitized data obtained every nanometer were corrected for baseline and smoothed by a least-squares polynomial fit up to the third order. CD spectra per mole ofmonomer are plotted as EL -ER in units of litermol-lVcm-1. Each spectrum was an average of at least three scans.

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Nina G. Dolinnaya

Oligonucleotide circularization by template-directed chemical ligation

Structure, properties, and biological relevance of the DNA and RNA G-quadruplexes: Overview 50 years after their discovery

The use of BrCN for assembling modified DNA duplexes and DNA-RNA hybrids; comparison with water-soluble carbodiimide

Conformational Polymorphism of d(A-G)n and Related Oligonucleotide Sequences

Single-stranded nucleic acid helical secondary structure stabilized by ionic bonds: d(A(+)-G)10.

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