Your search keyword '"Dmitry Prokopenko"' showing total 3 results

1. Kinetic Effects on Signal Normalization in Oligonucleotide Microchips with Labeled Immobilized Probes

Author

O. G. Somova, Alexander V. Chudinov, R. A. Yurasov, O. V. Moiseeva, Dmitry Prokopenko, Olga V. Antonova, Dmitry A. Gryadunov, S. V. Pan'kov, and V. R. Chechetkin

Subjects

DNA, Bacterial, Normalization (statistics), endocrine system, Chromatography, Chemistry, Oligonucleotide, Gene Expression Profiling, Analytical chemistry, Mycobacterium tuberculosis, General Medicine, Carbocyanines, Isoniazid resistance, Structural Biology, Molecular Biology, Fluorescent Dyes, Oligonucleotide Array Sequence Analysis

Abstract

Among various factors affecting operation of oligonucleotide microchips, the variations in concentration and in homogeneous distribution of immobilized probes over the cells are one of the most important. The labeling of immobilized probes ensures the complete current monitoring on the probe distribution and is reliable and convenient. Using hydrogel-based oligonucleotide microchips, the applicability of Cy3-labeled immobilized probes for quality control and signal normalization after hybridization with Cy5-labeled target DNA was investigated. This study showed that proper signal normalization should be different in thermodynamic conditions and in transient regime with hybridization far from saturation. This kinetic effect holds for both hydrogel-based and surface oligonucleotide microchips. Besides proving basic features, the technique was assessed on a sampling batch of 50 microchips developed for identifying mutations responsible for rifampicin and isoniazid resistance of Mycobacterium tubercu...

Published

2009

2. Analysis of Binding Specificity of Disulfide Bonded Dimeric λ-Cro V55C Protein with Generic Hexamer Oligonucleotide Microchip

Author

M. A. Livshits, E. S. Lomakin, V. R. Chechetkin, O. A. Zasedateleva, Alexander Krylov, A. Y. Turygin, Dmitry Prokopenko, G. I. Gitelson, Lucy Malinina, and Mirzabekov Ad

Subjects

Time Factors, Stereochemistry, Molecular Sequence Data, Mutant, Oligonucleotides, Biology, Random hexamer, chemistry.chemical_compound, Structural Biology, Disulfides, Molecular Biology, Binding selectivity, Oligonucleotide Array Sequence Analysis, Base Sequence, Oligonucleotide, Temperature, Disulfide bond, Nucleic Acid Hybridization, DNA, General Medicine, Bacteriophage lambda, Molecular biology, Spectrometry, Fluorescence, chemistry, Mutation, Thermodynamics, Protein Binding

Abstract

Binding specificity of mutant V55C disulfide bonded dimeric lambda-Cro protein (CroVC) to double-stranded DNA (dsDNA) was studied using generic hexamer oligonucleotide microchip. The curves of dissociation of hybridized DNA in the presence and absence of CroVC were converted into the effective discriminant constants to assess the relevant thermodynamic equilibrium binding constants for dsDNA-protein complexes. Then, tiling of longer oligonucleotides with shorter oligomers was used to search for sequence motifs with the highest binding specificity similarly to sequencing by hybridization. The comparison of the deduced sequences with the known natural operator half-sites demonstrated the principal ability to discern and reconstruct the major parts of 7-mer motifs corresponding to the strongest binding of CroVC subunits. Our results show the applicability of generic microchips to the analysis of binding specificity in the case of multi-subunit DNA-binding proteins.

Published

2003

3. Sequencing by Hybridization with the Generic 6-mer Oligonucleotide Microarray: An Advanced Scheme for Data Processing

Author

Andrei D. Mirzabekov, Dmitry Prokopenko, A. Y. Turygin, V. R. Chechetkin, Eu. V. Kirillov, and Dmitri Proudnikov

Subjects

Microscope, Molecular Sequence Data, Sequence (biology), Biology, DNA sequencing, law.invention, chemistry.chemical_compound, Sequencing by hybridization, Structural Biology, law, Fluorescence microscope, Molecular Biology, Oligonucleotide Array Sequence Analysis, Likelihood Functions, Data processing, Base Sequence, Oligonucleotide, DNA, General Medicine, Molecular biology, Oligodeoxyribonucleotides, chemistry, Data Interpretation, Statistical, Biological system, Algorithms

Abstract

DNA sequencing by hybridization was carried out with a microarray of all 4(6) = 4,096 hexadeoxyribonucleotides (the generic microchip). The oligonucleotides immobilized in 100 x 100 x 20-microm polyacrylamide gel pads of the generic microchip were hybridized with fluorescently labeled ssDNA, providing perfect and mismatched duplexes. Melting curves were measured in parallel for all microchip duplexes with a fluorescence microscope equipped with CCD camera. This allowed us to discriminate the perfect duplexes formed by the oligonucleotides, which are complementary to the target DNA. The DNA sequence was reconstructed by overlapping the complementary oligonucleotide probes. We developed a data processing scheme to heighten the discrimination of perfect duplexes from mismatched ones. The procedure was united with a reconstruction of the DNA sequence. The scheme includes the proper definition of a discriminant signal, preprocessing, and the variational principle for the sequence indicator function. The effectiveness of the procedure was confirmed by sequencing, proofreading, and nucleotide polymorphism (mutation) analysis of 13 DNA fragments from 31 to 70 nucleotides long.

Published

2000