Olga A. Zasedateleva scite author profile

A generic hexadeoxyribonucleotide microchip has been applied to test the DNA-binding properties of HU histone-like bacterial protein, which is known to have a low sequence specificity. All 4096 hexamers flanked within 8mers by degenerate bases at both the 3'- and 5'-ends were immobilized within the 100 x 100 x 20 mm polyacrylamide gel pads of the microchip. Single-stranded immobilized oligonucleotides were converted in some experiments to the double-stranded form by hybridization with a specified mixture of 8mers. The DNA interaction with HU was characterized by three type of measurements: (i) binding of FITC-labeled HU to microchip oligonucleotides; (ii) melting curves of complexes of labeled HU with single-stranded microchip oligonucleotides; (iii) the effect of HU binding on melting curves of microchip double-stranded DNA labeled with another fluorescent dye, Texas Red. Large numbers of measurements of these parameters were carried out in parallel for all or many generic microchip elements in real time with a multi-wavelength fluorescence microscope. Statistical analysis of these data suggests some preference for HU binding to G/C-rich single-stranded oligonucleotides. HU complexes with double-stranded microchip 8mers can be divided into two groups in which HU binding either increased the melting temperature (T(m)) of duplexes or decreased it. The stabilized duplexes showed some preference for presence of the sequence motifs AAG, AGA and AAGA. In the second type of complex, enriched with A/T base pairs, the destabilization effect was higher for longer stretches of A/T duplexes. Binding of HU to labeled duplexes in the second type of complex caused some decrease in fluorescence. This decrease also correlates with the higher A/T content and lower T(m). The results demonstrate that generic microchips could be an efficient approach in analysis of sequence specificity of proteins.

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Gel-based oligonucleotide microarray approach to analyze protein–ssDNA binding specificity

Zasedateleva

Mikheikin

Turygin

et al. 2008

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Gel-based oligonucleotide microarray approach was developed for quantitative profiling of binding affinity of a protein to single-stranded DNA (ssDNA). To demonstrate additional capabilities of this method, we analyzed the binding specificity of ribonuclease (RNase) binase from Bacillus intermedius (EC 3.1.27.3) to ssDNA using generic hexamer oligodeoxyribonucleotide microchip. Single-stranded octamer oligonucleotides were immobilized within 3D hemispherical gel pads. The octanucleotides in individual pads 5′-{N}N1N2N3N4N5N6{N}-3′ consisted of a fixed hexamer motif N1N2N3N4N5N6 in the middle and variable parts {N} at the ends, where {N} represent A, C, G and T in equal proportions. The chip has 4096 pads with a complete set of hexamer sequences. The affinity was determined by measuring dissociation of the RNase–ssDNA complexes with the temperature increasing from 0°C to 50°C in quasi-equilibrium conditions. RNase binase showed the highest sequence-specificity of binding to motifs 5′-NNG(A/T/C)GNN-3′ with the order of preference: GAG > GTG > GCG. High specificity towards G(A/T/C)G triplets was also confirmed by measuring fluorescent anisotropy of complexes of binase with selected oligodeoxyribonucleotides in solution. The affinity of RNase binase to other 3-nt sequences was also ranked. These results demonstrate the applicability of the method and provide the ground for further investigations of nonenzymatic functions of RNases.

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UV fluorescence of tryptophan residues effectively measures protein binding to nucleic acid fragments immobilized in gel elements of microarrays

Zasedateleva

Vasiliskov

Суржиков

et al. 2014

Biotechnology Journal

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Microarrays allow for the simultaneous monitoring of protein interactions with different nucleic acid (NA) sequences immobilized in microarray elements. Either fluorescently labeled proteins or specific fluorescently labeled antibodies are used to study protein-NA complexes. We suggest that protein-NA interactions on microarrays can be analyzed by ultraviolet (UV) fluorescence of tryptophan residues in the studied proteins, and this approach may eliminate the protein-labeling step. A specialized UV microscope was developed to obtain fluorescent images of microarrays in the UV wavelengths and to measure the fluorescence intensity of individual microarray elements. UV fluorescence intensity of BSA immobilized in microarray gel elements increased linearly with increased BSA amount with sensitivity of 0.6 ng. Real-time interaction curves between the DNA-binding domain of the NFATc1 transcription factor (NFATc1-DBD) and synthetic hairpin-forming oligodeoxyribonucleotides immobilized within 0.2 nL microarray gel elements at a concentration 5 × 10(-5) M and higher were obtained. The UV fluorescence intensities of microarray gel elements containing NFATc1-DBD-DNA complexes at equilibrium allowed the estimation of the equilibrium binding constant for complex formation. The developed method allows the protein-NA binding to be monitored in real time and can be applied to assess the sequence-specific affinity of NA-binding proteins in parallel studies involving many NA sequences.

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dUTPs conjugated with zwitterionic Cy3 or Cy5 fluorophore analogues are effective substrates for DNA amplification and labelling by Taq polymerase

Zasedateleva

Vasiliskov

Суржиков

et al. 2018

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To develop structural modifications of dNTPs that are compatible with Taq DNA polymerase activity, we synthesized eight dUTP derivatives conjugated with Cy3 or Cy5 dye analogues that differed in charge and charge distribution throughout the fluorophore. These dUTP derivatives and commercial Cy3− and Cy5-dUTP were studied in Taq polymerase-dependent polymerase chain reactions (PCRs) and in primer extension reactions using model templates containing one, two and three adjacent adenine nucleotides. The relative amounts of amplified DNA and the kinetic parameters Km and Vmax characterizing the incorporation of labelled dUMPs have been estimated using fluorescence measurements and analysed. The dUTPs labelled with electroneutral zwitterionic analogues of Cy3 or Cy5 fluorophores were used by Taq polymerase approximately one order of magnitude more effectively than the dUTPs labelled with negatively charged analogues of Cy3 or Cy5. The nucleotidyl transferase activity of Taq polymerase was also observed and resulted in the addition of dUMPs labelled with electroneutral or positively charged fluorophores to the 3′ ends of DNA. The introduction of mutually compensating charges into fluorophores or other functional groups conjugated to dNTPs can be considered a basis for the creation of PCR-compatible modified nucleoside triphosphates.

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