Your search keyword '"Yaminsky IV"' showing total 46 results

1. Scanning resistance microscopy of polyaniline

Author

Georgy Meshkov, Ivanov, Vf, and Yaminsky, Iv

2. Towards High-Temperature MEMS: Two-Step Annealing Suppressed Recrystallization in Thin Multilayer Pt-Rh/Zr Films.

Author

Pleshakov GA, Kalinin IA, Ivanov AV, Roslyakov IV, Yaminsky IV, and Napolskii KS

Abstract

Platinum-based thin films are widely used to create microelectronic devices operating at temperatures above 500 °C. One of the most effective ways to increase the high-temperature stability of platinum-based films involves incorporating refractory metal oxides (e.g., ZrO 2 , HfO 2 ). In such structures, refractory oxide is located along the metal grain boundaries and hinders the mobility of Pt atoms. However, the effect of annealing conditions on the morphology and functional properties of such multiphase systems is rarely studied. Here, we show that the two-step annealing of 250-nm-thick Pt-Rh/Zr multilayer films instead of the widely used isothermal annealing leads to a more uniform film morphology without voids and hillocks. The composition and morphology of as-deposited and annealed films were investigated using X-ray diffraction and scanning electron microscopy, combined with energy-dispersive X-ray spectroscopy. At the first annealing step at 450 °C, zirconium oxidation was observed. The second high-temperature annealing at 800-1000 °C resulted in the recrystallization of the Pt-Rh alloy. In comparison to the one-step annealing of Pt-Rh and Pt-Rh/Zr films, after two-step annealing, the metal phase in the Pt-Rh/Zr films has a smaller grain size and a less pronounced texture in the <111> direction, manifesting enhanced high-temperature stability. After two-step annealing at 450/900 °C, the Pt-Rh/Zr thin film possessed a grain size of 60 ± 27 nm and a resistivity of 17 × 10 -6 Ω·m. The proposed annealing protocol can be used to create thin-film MEMS devices for operation at elevated temperatures, e.g., microheater-based gas sensors.

Published

2023

3. High resolution imaging of viruses: Scanning probe microscopy and related techniques.

Author

Akhmetova AI and Yaminsky IV

Subjects

Animals, Image Processing, Computer-Assisted, Nanotechnology methods, Microscopy, Scanning Probe, Plant Viruses

Abstract

Scanning probe microscopy is a group of measurements that provides 3D visualization of viruses in different environmental conditions including liquids and air. Besides 3D topography it is possible to measure the properties like mechanical rigidity and stability, adhesion, tendency to crystallization, surface charge, etc. Choosing the right substrate and scanning parameters makes it much easier to obtain reliable data. Rational interpretation of experimental results should take into account possible artifacts, proper filtering and data presentation using specially designed software packages. Animal and human virus characterization is in the focus of many intensive studies because of their potential harm to higher organisms. The article focuses on high-resolution visualization of plant viruses. Tobacco mosaic virus, potato viruses X and B and others are not dangerous for the human being and are widely used in different applications such as vaccine preparation, construction of building units in nanotechnology and material science applications, nanoparticle production and delivery, and even metrology. The methods of virus's deposition, visualization, and consequent image processing and interpretation are described in details. Specific examples of viruses imaging are illustrated using the FemtoScan Online software, which has typical and all the necessary built-in functions for constructing three-dimensional images, their processing and analysis. Despite visible progress in visualizing the viruses using probe microscopy, many unresolved problems still remain. At present time the probe microscopy data on viruses is not systemized. There is no descriptive atlas of the images and morphology as revealed by this type of high resolution microscopy. It is worth emphasizing that new virus investigation methods will appear due to the progress of science., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

4. Label-free sensitive detection of influenza virus using PZT discs with a synthetic sialylglycopolymer receptor layer.

Author

Erofeev AS, Gorelkin PV, Kolesov DV, Kiselev GA, Dubrovin EV, and Yaminsky IV

Abstract

We describe rapid, label-free detection of Influenza A viruses using the first radial mode of oscillations of lead zirconate titanate (PZT) piezoelectric discs with a 2 mm radius and 100 µm thickness fabricated from a piezoelectric membrane. The discs are modified with a synthetic sialylglycopolymer receptor layer, and the coated discs are inserted in a flowing virus suspension. Label-free detection of the virus is achieved by monitoring the disc radial mode resonance frequency shift. Piezo transducers with sialylglycopolymer sensor layers exhibited a long lifetime, a high sensitivity and the possibility of regeneration. We demonstrate positive, label-free detection of Influenza A viruses at concentrations below 10 5 virus particles per millilitre. We show that label-free, selective, sensitive detection of influenza viruses by home appliances is possible in principle., Competing Interests: We have no competing interests., (© 2019 The Authors.)

Published

2019

5. Highly sensitive detection of influenza virus with SERS aptasensor.

Author

Kukushkin VI, Ivanov NM, Novoseltseva AA, Gambaryan AS, Yaminsky IV, Kopylov AM, and Zavyalova EG

Subjects

Spectrum Analysis, Raman, Surface Plasmon Resonance, Aptamers, Nucleotide chemistry, Biosensing Techniques methods, Influenza A Virus, H3N2 Subtype isolation & purification

Abstract

Highly sensitive and rapid technology of surface enhanced Raman scattering (SERS) was applied to create aptasensors for influenza virus detection. SERS achieves 106-109 times signal amplification, yielding excellent sensitivity, whereas aptamers to hemagglutinin provide a specific recognition of the influenza virus. Aptamer RHA0385 was demonstrated to have essentially broad strain-specificity toward both recombinant hemagglutinins and the whole viruses. To achieve high sensitivity, a sandwich of primary aptamers, influenza virus and secondary aptamers was assembled. Primary aptamers were attached to metal particles of a SERS substrate, and influenza viruses were captured and bound with secondary aptamers labelled with Raman-active molecules. The signal was affected by the concentration of both primary and secondary aptamers. The limit of detection was as low as 1 · 10-4 hemagglutination units per probe as tested for the H3N2 virus (A/England/42/72). Aptamer-based sensors provided recognition of various influenza viral strains, including H1, H3, and H5 hemagglutinin subtypes. Therefore, the aptasensors could be applied for fast and low-cost strain-independent determination of influenza viruses., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

6. Virus-Like Particle Facilitated Deposition of Hydroxyapatite Bone Mineral on Nanocellulose after Exposure to Phosphate and Calcium Precursors.

Author

Sinitsyna OV, Makarov VV, McGeachy K, Bukharova T, Whale E, Hepworth D, Yaminsky IV, Kalinina NO, Taliansky ME, and Love AJ

Subjects

Biotechnology, Tobacco Mosaic Virus, Calcification, Physiologic, Calcium chemistry, Cellulose chemistry, Durapatite chemistry, Nanocomposites chemistry, Nanocomposites ultrastructure, Phosphates chemistry

Abstract

We produced and isolated tobacco mosaic virus-like particles (TMV VLPs) from bacteria, which are devoid of infectious genomes, and found that they have a net negative charge and can bind calcium ions. Moreover, we showed that the TMV VLPs could associate strongly with nanocellulose slurry after a simple mixing step. We sequentially exposed nanocellulose alone or slurries mixed with the TMV VLPs to calcium and phosphate salts and utilized physicochemical approaches to demonstrate that bone mineral (hydroxyapatite) was deposited only in nanocellulose mixed with the TMV VLPs. The TMV VLPs confer mineralization properties to the nanocellulose for the generation of new composite materials.

Published

2019

7. Blister formation during graphite surface oxidation by Hummers' method.

Author

Sinitsyna OV, Meshkov GB, Grigorieva AV, Antonov AA, Grigorieva IG, and Yaminsky IV

Abstract

Graphite oxide has a complex structure that can be modified in many ways to obtain materials for a wide range of applications. It is known that the graphite precursor has an important role in the synthesis of graphite oxide. In the present study, the basal-plane surface of highly annealed pyrolythic graphite (HAPG) was oxidized by Hummers' method and investigated by Raman spectroscopy and atomic force microscopy. HAPG was used as a graphite precursor because its surface after cleavage contains well-ordered millimeter-sized regions. The treatment resulted in graphite intercalation by sulfuric acid and blister formation all over the surface. Surprisingly, the destruction of the sp 2 -lattice was not detected in the ordered regions. We suggest that the reagent diffusion under the basal plane surface occurred through the cleavage steps and dislocations with the Burgers vector parallel to the c -axis in graphite.

Published

2018

8. Direct Observation of Changes in Focal Conic Domains of Cholesteric Films Induced by Ultraviolet Irradiation.

Author

Sinitsyna OV, Bobrovsky AY, Meshkov GB, Yaminsky IV, and Shibaev VP

Abstract

The helical supramolecular structure of cholesteric liquid crystalline (LC) films predetermines their outstanding optical properties and the unique nanostructure of their surface. The introduction of photochromic dopants in these films opens up an interesting possibility for creation of smart cholesteric materials with photocontrollable optical and photovariable surface properties. Using atomic force microscopy (AFM), we performed in situ measurements of the surface topography of cyclosiloxane LC cholesteric oligomer films during the cholesteric helix twisting caused by their preliminary ultraviolet (UV) irradiation. A chiral-photochromic isosorbide-based dopant was introduced in the films to control the cholesteric helix pitch by UV-irradiation. The initial films are characterized by planar texture with the presence of focal conic domains having the double-spiral relief on their surface. UV-irradiation of these films leads to the cholesteric helix twisting resulting in a decrease in the surface relief period, and the enlargement of defect areas between the domains. The detailed mechanisms of the rearrangement of the film surface structure due to the cholesteric helix twisting are suggested. They include the rotation and displacement of cholesteric layers in the bulk, and the nucleation of new ones at the surface in defect regions.

Published

2017

9. Effect of DNA bending on transcriptional interference in the systems of closely spaced convergent promoters.

Author

Koroleva ON, Dubrovin EV, Yaminsky IV, and Drutsa VL

Subjects

DNA, Circular ultrastructure, DNA-Directed RNA Polymerases ultrastructure, Escherichia coli genetics, Escherichia coli ultrastructure, Microscopy, Atomic Force, Plasmids genetics, Plasmids ultrastructure, Promoter Regions, Genetic, Transcription Initiation Site, DNA, Circular genetics, DNA-Binding Proteins genetics, DNA-Directed RNA Polymerases genetics, Transcription, Genetic

Abstract

Background: Over the past years there are increasing evidences that the interplay between two molecules of RNA polymerases, initiating transcription from promoters, oriented in opposite (convergent) directions, can serve as a regulatory factor of gene expression. The data concerning the molecular mechanisms of this so-called transcriptional interference (TI) are not well understood., Methods: The interaction of RNA polymerase with circular DNA templates, containing the convergent promoters, was investigated in a series of in vitro transcription assays and atomic force microscopy (AFM)., Results: In this work, to study the mechanisms of transcription interference a series of plasmids with oppositely oriented closely spaced artificial promoters, recognized by Escherichia coli RNA polymerase, was constructed. The constructs differ in promoter structure and distance between the transcription start sites. We have demonstrated that the transcripts ratio (RNA-R/RNA-L) and morphology of convergent open promoter complexes (OPC) are highly dependent on the interpromoter distance., Conclusions: The obtained results allowed us to suggest the novel model of TI, which assumes the DNA bending upon binding of RNA polymerase with promoters and explains the phenomenon of complete inactivation of weaker promoter by the stronger one., General Significance: The results show that the conformational transitions in DNA helix, associated with DNA bending upon binding of RNA polymerase with promoters, play crucial role in OPC formation in the systems with convergent promoters., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

10. A hypothetical hierarchical mechanism of the self-assembly of the Escherichia coli RNA polymerase σ(70) subunit.

Author

Koroleva ON, Dubrovin EV, Tolstova AP, Kuzmina NV, Laptinskaya TV, Yaminsky IV, and Drutsa VL

Subjects

Bacterial Proteins genetics, DNA-Directed RNA Polymerases genetics, Dynamic Light Scattering, Elastic Modulus, Escherichia coli genetics, Gene Expression, Microscopy, Atomic Force, Protein Multimerization, Protein Structure, Secondary, Recombinant Proteins chemistry, Recombinant Proteins genetics, Sigma Factor genetics, Amyloid chemistry, Bacterial Proteins chemistry, DNA-Directed RNA Polymerases chemistry, Escherichia coli chemistry, Molecular Dynamics Simulation, Protein Aggregates, Sigma Factor chemistry

Abstract

Diverse morphology of aggregates of amyloidogenic proteins has been attracting much attention in the last few years, and there is still no complete understanding of the relationships between various types of aggregates. In this work, we propose the model, which universally explains the formation of morphologically different (wormlike and rodlike) aggregates on the example of a σ(70) subunit of RNA polymerase, which has been recently shown to form amyloid fibrils. Aggregates were studied using AFM in solution and depolarized dynamic light scattering. The obtained results demonstrate comparably low Young's moduli of the wormlike structures (7.8-12.3 MPa) indicating less structured aggregation of monomeric proteins than that typical for β-sheet formation. To shed light on the molecular interaction of the protein during the aggregation, early stages of fibrillization of the σ(70) subunit were modeled using all-atom molecular dynamics. Simulations have shown that the σ(70) subunit is able to form quasi-symmetric extended dimers, which may further interact with each other and grow linearly. The proposed general model explains different pathways of σ(70) subunit aggregation and may be valid for other amyloid proteins.

Published

2016

11. A Genetically Modified Tobacco Mosaic Virus that can Produce Gold Nanoparticles from a Metal Salt Precursor.

Author

Love AJ, Makarov VV, Sinitsyna OV, Shaw J, Yaminsky IV, Kalinina NO, and Taliansky ME

Abstract

We genetically modified tobacco mosaic virus (TMV) to surface display a characterized peptide with potent metal ion binding and reducing capacity (MBP TMV), and demonstrate that unlike wild type TMV, this construct can lead to the formation of discrete 10-40 nm gold nanoparticles when mixed with 3 mM potassium tetrachloroaurate. Using a variety of analytical physicochemical approaches it was found that these nanoparticles were crystalline in nature and stable. Given that the MBP TMV can produce metal nanomaterials in the absence of chemical reductants, it may have utility in the green production of metal nanomaterials.

Published

2015

12. Surface Relief Changes in Cholesteric Cyclosiloxane Oligomer Films at Different Temperatures.

Author

Sinitsyna OV, Bobrovsky AY, Meshkov GB, Yaminsky IV, and Shibaev VP

Abstract

The development of new approaches for the surface topography control is an important topic as the relief significantly affects physical and chemical properties of surfaces. We studied cholesteric cyclosiloxane oligomeric films on which surface focal conic domains with double-helix pattern were observed by means of AFM. In situ investigation of the dependence of the films topography on temperature showed that the surface relief formation can be effectively managed by varying conditions of thermal treatment. Obtained structures can be frozen by cooling the films below glass-transition temperature.

Published

2015

13. Synthetic sialylglycopolymer receptor for virus detection using cantilever-based sensors.

Author

Gorelkin PV, Erofeev AS, Kiselev GA, Kolesov DV, Dubrovin EV, and Yaminsky IV

Subjects

Acrylic Resins chemistry, Fetuins chemistry, Influenza A virus metabolism, Microscopy, Atomic Force, Oligosaccharides chemistry, Receptors, Artificial chemistry, Influenza A virus isolation & purification, Receptors, Artificial metabolism

Abstract

We describe the rapid, label-free detection of Influenza A viruses using a cantilever transducer modified with a synthetic sialylglycopolymer receptor layer. Surface stresses induced by viruses binding to the receptor layer were used as the analytical signal. The synthetic sialylglycopolymer receptor layer can be used in nanoscale strain-gauge cantilever transducers for highly sensitive virus detection. Strain-gage transducers using such sensor layers exhibit long lifetimes, high sensitivities, and possible regeneration. Nanomechanical cantilever systems using optical detectors were used for the surface stress measurements. We demonstrated the positive, label-free detection of Influenza A at concentrations below 10(6) viruses per ml. In contrast to hemagglutination assays, cantilever sensors are label free, in situ, and rapid (less than 30 min), and they require minimal or nearly no sample preparation.

Published

2015

14. The Use of Atomic Force Microscopy for 3D Analysis of Nucleic Acid Hybridization on Microarrays.

Author

Dubrovin EV, Presnova GV, Rubtsova MY, Egorov AM, Grigorenko VG, and Yaminsky IV

Abstract

Oligonucleotide microarrays are considered today to be one of the most efficient methods of gene diagnostics. The capability of atomic force microscopy (AFM) to characterize the three-dimensional morphology of single molecules on a surface allows one to use it as an effective tool for the 3D analysis of a microarray for the detection of nucleic acids. The high resolution of AFM offers ways to decrease the detection threshold of target DNA and increase the signal-to-noise ratio. In this work, we suggest an approach to the evaluation of the results of hybridization of gold nanoparticle-labeled nucleic acids on silicon microarrays based on an AFM analysis of the surface both in air and in liquid which takes into account of their three-dimensional structure. We suggest a quantitative measure of the hybridization results which is based on the fraction of the surface area occupied by the nanoparticles.

Published

2015

15. Statistical analysis of molecular nanotemplate driven DNA adsorption on graphite.

Author

Dubrovin EV, Speller S, and Yaminsky IV

Subjects

Adsorption, Amines chemistry, Fatty Alcohols chemistry, Microscopy, Atomic Force, Stearic Acids chemistry, DNA chemistry, Graphite chemistry, Models, Molecular, Nanostructures chemistry

Abstract

In this work, we have studied the conformation of DNA molecules aligned on the nanotemplates of octadecylamine, stearyl alcohol, and stearic acid on highly oriented pyrolytic graphite (HOPG). For this purpose, fluctuations of contours of adsorbed biopolymers obtained from atomic force microscopy (AFM) images were analyzed using the wormlike chain model. Moreover, the conformations of adsorbed biopolymer molecules were characterized by the analysis of the scaling exponent ν, which relates the mean squared end-to-end distance and contour length of the polymer. During adsorption on octadecylamine and stearyl alcohol nanotemplates, DNA forms straight segments, which order along crystallographic axes of graphite. In this case, the conformation of DNA molecules can be described using two different length scales. On a large length scale (at contour lengths l > 200-400 nm), aligned DNA molecules have either 2D compact globule or partially relaxed 2D conformation, whereas on a short length scale (at l ≤ 200-400 nm) their conformation is close to that of rigid rods. The latter type of conformation can be also assigned to DNA adsorbed on a stearic acid nanotemplate. The different conformation of DNA molecules observed on the studied monolayers is connected with the different DNA-nanotemplate interactions associated with the nature of the functional group of the alkane derivative in the nanotemplate (amine, alcohol, or acid). The persistence length of λ-DNA adsorbed on octadecylamine nanotemplates is 31 ± 2 nm indicating the loss of DNA rigidity in comparison with its native state. Similar values of the persistence length (34 ± 2 nm) obtained for 24-times shorter DNA molecules adsorbed on an octadecylamine nanotemplate demonstrate that this rigidity change does not depend on biopolymer length. Possible reasons for the reduction of DNA persistence length are discussed in view of the internal DNA structure and DNA-surface interaction.

Published

2014

16. [Conjugates of streptavidin with gold nanoparticles for the visualization of dna single interactions on the silicon surface].

Author

Presnova GV, Rubtsova MY, Presnov DE, Grigorenko VG, Yaminsky IV, and Egorov AM

Subjects

Biotin chemistry, Gold chemistry, Limit of Detection, Oligonucleotides chemistry, Silicon chemistry, DNA chemistry, Metal Nanoparticles chemistry, Microscopy, Electron, Scanning methods, Nucleic Acid Hybridization methods, Streptavidin chemistry

Abstract

The potential of the method of scanning electron microscopy (SEM) to visualize the results of individual acts of DNA and oligonucleotides hybridization using gold nanoparticles as label was investigated. Molecule of biotin was introduced into DNA or oligonucleotide, and then it was detected in DNA duplex using a conjugate of streptavidin with gold nanoparticles. Effective imaging of DNA duplexes was possible using a conjugate prepared by covalent binding.. The detection limit of the model oligonucleotide of 19 bases was 20 pg.

Published

2014

17. [Implementation of scanning probe microscopy for the solution of molecular diagnostics tasks].

Author

Dubrovin EV, Presnova GV, Rubtsova MY, Grigorenko VG, Ivanin AI, Egorov AM, and Yaminsky IV

Subjects

Gold chemistry, Metal Nanoparticles chemistry, Nucleic Acid Hybridization methods, Oligonucleotides chemistry, DNA, Bacterial chemistry, Microscopy, Scanning Probe methods, Pathology, Molecular methods

Abstract

We present new approaches to improve the efficiency of DNA by scanning probe microscopy using a highly specific hybridization on affine surfaces and nanostructures of gold as a labels. Scanning probe microscopy allows to register of individual acts of hybridization by the detection of gold labels on the surface affinity followed by automatic calculation of the total.

Published

2014

18. Biosynthesis of stable iron oxide nanoparticles in aqueous extracts of Hordeum vulgare and Rumex acetosa plants.

Author

Makarov VV, Makarova SS, Love AJ, Sinitsyna OV, Dudnik AO, Yaminsky IV, Taliansky ME, and Kalinina NO

Subjects

Ferric Compounds chemistry, Hordeum chemistry, Nanoparticles chemistry, Plant Extracts chemistry, Plant Leaves chemistry, Rumex chemistry

Abstract

We report the synthesis and characterization of amorphous iron oxide nanoparticles from iron salts in aqueous extracts of monocotyledonous (Hordeum vulgare) and dicotyledonous (Rumex acetosa) plants. The nanoparticles were characterized by TEM, absorbance spectroscopy, SAED, EELS, XPS, and DLS methods and were shown to contain mainly iron oxide and iron oxohydroxide. H. vulgare extracts produced amorphous iron oxide nanoparticles with diameters of up to 30 nm. These iron nanoparticles are intrinsically unstable and prone to aggregation; however, we rendered them stable in the long term by addition of 40 mM citrate buffer pH 3.0. In contrast, amorphous iron oxide nanoparticles (diameters of 10-40 nm) produced using R. acetosa extracts are highly stable. The total protein content and antioxidant capacity are similar for both extracts, but pH values differ (H. vulgare pH 5.8 vs R. acetosa pH 3.7). We suggest that the presence of organic acids (such oxalic or citric acids) plays an important role in the stabilization of iron nanoparticles, and that plants containing such constituents may be more efficacious for the green synthesis of iron nanoparticles.

Published

2014

19. Electrochemical nanoprobes for single-cell analysis.

Author

Actis P, Tokar S, Clausmeyer J, Babakinejad B, Mikhaleva S, Cornut R, Takahashi Y, López Córdoba A, Novak P, Shevchuck AI, Dougan JA, Kazarian SG, Gorelkin PV, Erofeev AS, Yaminsky IV, Unwin PR, Schuhmann W, Klenerman D, Rusakov DA, Sviderskaya EV, and Korchev YE

Subjects

Hydrogen Peroxide analysis, Microscopy, Electron, Scanning, Oxidation-Reduction, Oxygen analysis, Single-Cell Analysis, Electrochemical Techniques instrumentation, Electrodes, Nanostructures

Abstract

The measurement of key molecules in individual cells with minimal disruption to the biological milieu is the next frontier in single-cell analyses. Nanoscale devices are ideal analytical tools because of their small size and their potential for high spatial and temporal resolution recordings. Here, we report the fabrication of disk-shaped carbon nanoelectrodes whose radius can be precisely tuned within the range 5-200 nm. The functionalization of the nanoelectrode with platinum allowed the monitoring of oxygen consumption outside and inside a brain slice. Furthermore, we show that nanoelectrodes of this type can be used to impale individual cells to perform electrochemical measurements within the cell with minimal disruption to cell function. These nanoelectrodes can be fabricated combined with scanning ion conductance microscopy probes, which should allow high resolution electrochemical mapping of species on or in living cells.

Published

2014

20. "Green" nanotechnologies: synthesis of metal nanoparticles using plants.

Author

Makarov VV, Love AJ, Sinitsyna OV, Makarova SS, Yaminsky IV, Taliansky ME, and Kalinina NO

Abstract

While metal nanoparticles are being increasingly used in many sectors of the economy, there is growing interest in the biological and environmental safety of their production. The main methods for nanoparticle production are chemical and physical approaches that are often costly and potentially harmful to the environment. The present review is devoted to the possibility of metal nanoparticle synthesis using plant extracts. This approach has been actively pursued in recent years as an alternative, efficient, inexpensive, and environmentally safe method for producing nanoparticles with specified properties. This review provides a detailed analysis of the various factors affecting the morphology, size, and yield of metal nanoparticles. The main focus is on the role of the natural plant biomolecules involved in the bioreduction of metal salts during the nanoparticle synthesis. Examples of effective use of exogenous biomatrices (peptides, proteins, and viral particles) to obtain nanoparticles in plant extracts are discussed.

Published

2014

21. The role of the 5'-cap structure in viral ribonucleoproteins assembly from potato virus X coat protein and RNAs.

Author

Petrova EK, Nikitin NA, Protopopova AD, Arkhipenko MV, Yaminsky IV, Karpova OV, and Atabekov JG

Subjects

Bromovirus genetics, RNA metabolism, RNA, Viral metabolism, Ribonucleoproteins genetics, Virion metabolism, Virus Assembly genetics, Capsid Proteins metabolism, Potexvirus genetics, RNA Caps metabolism, Ribonucleoproteins metabolism

Abstract

The potato virus X (PVX) virion can be reconstituted in vitro from the virus coat protein (CP) and RNA; heterologous RNAs may be used as well. In our recent study, structure and properties of cognate and heterologous viral ribonucleoproteins (vRNPs) were demonstrated to be similar to those of native virions. The assembly was found to be initiated at the 5' terminus of an RNA and was not dependent on RNA sequence. The aim of the present study was to search for a signal or an essential structural element that directs packaging of viral genetic material into vRNPs. vRNPs were formed by incubation of the PVX CP with heterologous capped RNAs, their functional fragments lacking the cap structure, as well as the capped and uncapped transcripts corresponding to the 5'-terminal region of the genomic PVX RNA. Experimental data show that the presence of the cap structure at the 5' end of a nucleic acid is an important condition for vRNP assembly from RNA and CP. Presumably, the 5'-cap affects conformational state of the RNA region responsible for the efficient interaction with CP and creates conformational encapsidation signal for vRNP assembly., (Copyright © 2013 Elsevier Masson SAS. All rights reserved.)

Published

2013

22. The model of amyloid aggregation of Escherichia coli RNA polymerase σ70 subunit based on AFM data and in vitro assays.

Author

Koroleva ON, Dubrovin EV, Khodak YA, Kuzmina NV, Yaminsky IV, and Drutsa VL

Subjects

Base Sequence, DNA genetics, DNA metabolism, DNA-Directed RNA Polymerases genetics, DNA-Directed RNA Polymerases metabolism, Molecular Sequence Data, Mutagenesis, Site-Directed, Mutation, Protein Structure, Secondary, Sigma Factor genetics, Sigma Factor metabolism, Transcription, Genetic, Amyloid chemistry, DNA-Directed RNA Polymerases chemistry, Escherichia coli enzymology, Microscopy, Atomic Force, Protein Multimerization, Protein Subunits chemistry, Sigma Factor chemistry

Abstract

To propose a model for recently described amyloid aggregation of E.coli RNA polymerase σ(70) subunit, we have investigated the role of its N-terminal region. For this purpose, three mutant variants of protein with deletions Δ1-73, Δ1-100 and Δ74-100 were constructed and studied in a series of in vitro assays and using atomic force microscopy (AFM). Specifically, all RNA polymerase holoenzymes, reconstituted with the use of mutant σ subunits, have shown reduced affinity for promoter-containing DNA and reduced activity in run-off transcription experiments (compared to that of WT species), thus substantiating the modern concept on the modulatory role of N-terminus in formation of open complex and transcription initiation. The ability of mutant proteins to form amyloid-like structures has been investigated using AFM, which revealed the increased propensity of mutant proteins to form rodlike aggregates with the effect being more pronounced for the mutant with the deletion Δ1-73 (10 fold increase). σ(70) subunit aggregation ability has shown complex dependence on the ionic surrounding, which we explain by Debye screening effect and the change of the internal state of the protein. Basing on the obtained data, we propose the model of amyloid fibril formation by σ(70) subunit, implying the involvement of N-terminal region according to the domain swapping mechanism.

Published

2013

23. Kinetic characterization of inhibition of human thrombin with DNA aptamers by turbidimetric assay.

Author

Zavyalova EG, Protopopova AD, Yaminsky IV, and Kopylov AM

Subjects

Amino Acid Sequence, Aptamers, Nucleotide genetics, Base Sequence, Chromatography, High Pressure Liquid, Fibrinogen, Fibrinopeptide A genetics, Fibrinopeptide B genetics, Humans, Hydrolysis, In Vitro Techniques, Kinetics, Microscopy, Atomic Force, Molecular Sequence Data, Nephelometry and Turbidimetry methods, Thrombin analysis, Aptamers, Nucleotide pharmacology, Thrombin antagonists & inhibitors

Abstract

A sensitive turbidimetric method for detecting fibrin association was used to study the kinetics of fibrinogen hydrolysis with thrombin. The data were complemented by high-performance liquid chromatography (HPLC) measurements of the peptide products, fibrinopeptides released during hydrolysis. Atomic force microscopy (AFM) data showed that the fibril diameter is the main geometric parameter influencing the turbidity. The turbidimetric assay was validated using thrombin with the standard activity. To study thrombin inhibitors, a kinetic model that allows estimating the inhibition constants and the type of inhibition was proposed. The kinetic model was used to study the inhibitory activity of the two DNA aptamers 15-TBA (thrombin-binding aptamer) and 31-TBA, which bind to thrombin exosites. For the first time, 31-TBA was shown to possess the competitive inhibition type, whereas the shortened aptamer 15-TBA has the noncompetitive inhibition type., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012

24. AFM study of Escherichia coli RNA polymerase σ⁷⁰ subunit aggregation.

Author

Dubrovin EV, Koroleva ON, Khodak YA, Kuzmina NV, Yaminsky IV, and Drutsa VL

Subjects

Amyloid chemistry, Amyloid ultrastructure, Congo Red chemistry, Electrophoresis, Polyacrylamide Gel, Escherichia coli enzymology, Macromolecular Substances chemistry, Microscopy, Atomic Force methods, Particle Size, DNA-Directed RNA Polymerases chemistry, DNA-Directed RNA Polymerases ultrastructure, Escherichia coli ultrastructure, Macromolecular Substances ultrastructure, Sigma Factor chemistry, Sigma Factor ultrastructure

Abstract

The self-assembly of Escherichia coli RNA polymerase σ⁷⁰ subunit was investigated using several experimental approaches. A novel rodlike shape was reported for σ⁷⁰ subunit aggregates. Atomic force microscopy reveals that these aggregates, or σ⁷⁰ polymers, have a straight rodlike shape 5.4 nm in diameter and up to 300 nm in length. Atomic force microscopy data, Congo red binding assay, and sodium dodecyl sulfate gel electrophoresis confirm the amyloid nature of observed aggregates. The process of formation of rodlike structures proceeds spontaneously under nearly physiological conditions. E. coli RNA polymerase σ⁷⁰ subunit may be an interesting object for investigation of amyloidosis as well as for biotechnological applications that exploit self-assembled bionanostructures. Polymerization of σ⁷⁰ subunit may be a competitive process with its three-dimensional crystallization and association with core RNA polymerase., From the Clinical Editor: In this basic science study, the self-assembly of Escherichia coli RNA polymerase σ⁷⁰( subunit was investigated using atomic force microscopy and other complementary approaches., (2012 Elsevier Inc. All rights reserved.)

Published

2012

25. AFM Specific Identification of Bacterial Cell Fragments on Biofunctional Surfaces.

Author

Dubrovin EV, Fedyukina GN, Kraevsky SV, Ignatyuk TE, Yaminsky IV, and Ignatov SG

Abstract

Biointerfaces with a highly sensitive surface designed for specific interaction with biomolecules are essential approaches for providing advanced biochemical and biosensor assays. For the first time, we have introduced a simple AFM-based recognition system capable of visualizing specific bacterial nanofragments and identifying the corresponding bacterial type. For this we developed AFM-adjusted procedures for preparing IgG-based surfaces and subsequently exposing them to antigens. The AFM images reveal the specific binding of Escherichia coli cell fragments to the prepared biofunctional surfaces. Moreover, the binding of bacterial cell fragments to the affinity surfaces can be characterized quantitatively, indicating a 30-fold to 80-fold increase in the quantity of bound antigenic material in the case of a specific antigen-antibody pair. Our results demonstrate significant opportunities for developing reliable sensing procedures for detecting pathogenic bacteria, and the cell can still be identified after it is completely destroyed.

Published

2012

26. Atomic force microscopy analysis of the Acinetobacter baumannii bacteriophage AP22 lytic cycle.

Author

Dubrovin EV, Popova AV, Kraevskiy SV, Ignatov SG, Ignatyuk TE, Yaminsky IV, and Volozhantsev NV

Subjects

Bacteriophages physiology, Acinetobacter Infections prevention & control, Acinetobacter baumannii virology, Bacteriolysis physiology, Bacteriophages ultrastructure, Biological Control Agents, Microscopy, Atomic Force methods

Abstract

Background: Acinetobacter baumannii is known for its ability to develop resistance to the major groups of antibiotics, form biofilms, and survive for long periods in hospital environments. The prevalence of infections caused by multidrug-resistant A. baumannii is a significant problem for the modern health care system, and application of lytic bacteriophages for controlling this pathogen may become a solution., Methodology/principal Findings: In this study, using atomic force microscopy (AFM) and microbiological assessment we have investigated A. baumannii bacteriophage AP22, which has been recently described. AFM has revealed the morphology of bacteriophage AP22, adsorbed on the surfaces of mica, graphite and host bacterial cells. Besides, morphological changes of bacteriophage AP22-infected A. baumannii cells were characterized at different stages of the lytic cycle, from phage adsorption to the cell lysis. The phage latent period, estimated from AFM was in good agreement with that obtained by microbiological methods (40 min). Bacteriophage AP22, whose head diameter is 62±1 nm and tail length is 88±9 nm, was shown to disperse A. baumannii aggregates and adsorb to the bacterial surface right from the first minute of their mutual incubation at 37°C., Conclusions/significance: High rate of bacteriophage AP22 specific adsorption and its ability to disperse bacterial aggregates make this phage very promising for biomedical antimicrobial applications. Complementing microbiological results with AFM data, we demonstrate an effective approach, which allows not only comparing independently obtained characteristics of the lytic cycle but also visualizing the infection process.

Published

2012

27. Investigation of early stages of fibrin association.

Author

Zavyalova EG, Protopopova AD, Kopylov AM, and Yaminsky IV

Subjects

Hydrolysis, Protein Binding, Protein Conformation, Thrombin metabolism, Fibrin chemistry, Microscopy, Atomic Force

Abstract

Interactions between fibrinogen molecules proteolytically cleaved with thrombin were investigated using atomic force microscopy (AFM) and dynamic light scattering (DLS). Gradually decreased fibrinogen concentrations were used to study the fibrin network, large separated fibrils, small fibrils in the initial association stages, and protofibrils. In addition, a new type of structure was found in AFM experiments at a low fibrinogen concentration (20 nM): the molecules in these single-stranded associates are arranged in a row, one after the other. The height, diameter, and distance between domains in these single-stranded associates were the same as those in the original fibrinogen molecules. DLS data assumed formation of extended associates in bulk solution at fibrinogen concentration as low as 20 nM., (© 2011 American Chemical Society)

Published

2011

28. The internal domain of hordeivirus movement protein TGB1 forms in vitro filamentous structures.

Author

Makarov VV, Obraztsova EA, Solovyev AG, Morozov SY, Taliansky ME, Yaminsky IV, and Kalinina NO

Subjects

Microscopy, Atomic Force, Plant Viral Movement Proteins genetics, Plant Viral Movement Proteins metabolism, Plant Viruses metabolism, Poa virology, Protein Structure, Tertiary, RNA, Viral metabolism, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Plant Viral Movement Proteins chemistry

Abstract

The 63 kDa hordeivirus movement protein TGB1 of poa semilatent virus (the PSLV TGB1 protein) forms viral ribonucleoprotein for virus transport within a plant. It was found using the dynamic laser light scattering technique that the internal domain of TGB1 protein forms in vitro high molecular weight complexes. According to results of atomic force microscopy, a part of these complexes is represented by globules of different sizes, while another part consists of extended filamentous structures. Similar properties are also characteristic of the N-terminal half of the protein and are obviously due to its internal domain moiety. The data support the hypothesis that upon viral ribonucleoprotein complex formation, the N-terminal half of the PSLV TGB1 protein plays a structural role and exhibits the ability to form multimeric filamentous structures (the ability for self-assembly).

Published

2010

29. The effect of underlying octadecylamine monolayer on the DNA conformation on the graphite surface.

Author

Dubrovin EV, Gerritsen JW, Zivkovic J, Yaminsky IV, and Speller S

Subjects

Adsorption, DNA classification, Microscopy, Atomic Force, Molecular Conformation, Surface Properties, Volatilization, Amines chemistry, DNA chemistry, Graphite chemistry

Abstract

DNA was immobilized on highly oriented pyrolytic graphite (HOPG) surfaces modified in octadecylamine (ODA) vapor. ODA molecules, deposited from the vapor phase onto HOPG form a nanostructured surface, which was utilized as a template for DNA adsorption. Peculiarities of double- and single-stranded DNA adsorption on these surfaces were investigated with atomic force microscopy (AFM) both in air, liquid and under different salt conditions. AFM images of DNA molecules immobilized on octadecylamine modified HOPG reveal a segmented shape of biopolymers: it constitutes straight segments with sharp turns at angles 120 degrees or 60 degrees between them, reflecting the symmetry of the underlying pattern. The analysis of DNA conformations on ODA modified HOPG surface has shown that under certain conditions DNA equilibrates on the surface on the scale of the whole molecule. A persistence length estimate of 97nm was determined for those molecules. Participation of different forces in the ODA pattern driven DNA assembly is discussed.

Published

2010

30. Domain organization of the N-terminal portion of hordeivirus movement protein TGBp1.

Author

Makarov VV, Rybakova EN, Efimov AV, Dobrov EN, Serebryakova MV, Solovyev AG, Yaminsky IV, Taliansky ME, Morozov SY, and Kalinina NO

Subjects

Amino Acid Sequence, Circular Dichroism, Escherichia coli genetics, Escherichia coli metabolism, Mass Spectrometry, Mutation, Plant Viral Movement Proteins genetics, Plant Viral Movement Proteins metabolism, Protein Structure, Tertiary, RNA, Viral genetics, RNA, Viral metabolism, Recombination, Genetic, Ribonucleoproteins genetics, Ribonucleoproteins metabolism, Ultracentrifugation, Plant Viral Movement Proteins chemistry, Plant Viruses genetics, Plant Viruses metabolism, Plant Viruses physiology, RNA Viruses genetics, RNA Viruses metabolism, RNA Viruses physiology

Abstract

Three 'triple gene block' proteins known as TGBp1, TGBp2 and TGBp3 are required for cell-to-cell movement of plant viruses belonging to a number of genera including Hordeivirus. Hordeiviral TGBp1 interacts with viral genomic RNAs to form ribonucleoprotein (RNP) complexes competent for translocation between cells through plasmodesmata and over long distances via the phloem. Binding of hordeivirus TGBp1 to RNA involves two protein regions, the C-terminal NTPase/helicase domain and the N-terminal extension region. This study demonstrated that the extension region of hordeivirus TGBp1 consists of two structurally and functionally distinct domains called the N-terminal domain (NTD) and the internal domain (ID). In agreement with secondary structure predictions, analysis of circular dichroism spectra of the isolated NTD and ID demonstrated that the NTD represents a natively unfolded protein domain, whereas the ID has a pronounced secondary structure. Both the NTD and ID were able to bind ssRNA non-specifically. However, whilst the NTD interacted with ssRNA non-cooperatively, the ID bound ssRNA in a cooperative manner. Additionally, both domains bound dsRNA. The NTD and ID formed low-molecular-mass oligomers, whereas the ID also gave rise to high-molecular-mass complexes. The isolated ID was able to interact with both the NTD and the C-terminal NTPase/helicase domain in solution. These data demonstrate that the hordeivirus TGBp1 has three RNA-binding domains and that interaction between these structural units can provide a basis for remodelling of viral RNP complexes at different steps of cell-to-cell and long-distance transport of virus infection.

Published

2009

31. Atomic force microscopy investigation of phage infection of bacteria.

Author

Dubrovin EV, Voloshin AG, Kraevsky SV, Ignatyuk TE, Abramchuk SS, Yaminsky IV, and Ignatov SG

Subjects

Bacillus Phages metabolism, Bacteriophages metabolism, Biochemistry methods, Colony Count, Microbial, Microscopy, Electron, Transmission, Models, Biological, Temperature, Time Factors, Bacillus thuringiensis metabolism, Bacteria metabolism, Escherichia coli metabolism, Microscopy, Atomic Force methods, Salmonella enteritidis metabolism

Abstract

Atomic force microscopy (AFM) was used to study the process of infection of bacterial cells by bacteriophages, for which purpose experimental protocols were elaborated. Three types of bacteriophages were characterized with AFM and transmission electron microscopy (TEM). Bacteriophage interaction with cells was studied for three bacterial hosts: Gram-negative Escherichia coli 057 and Salmonella enteritidis 89 and Gram-positive Bacillus thuringiensis 393. Depending on the phase of lytic cycle, different cell surface changes are observed in AFM images of infected cells in comparison with intact cells: from phage adsorption on the cells and flagella to complete lysis of the cells, accompanied by the release of a large number of newly formed phages. Control experiments (cells without phages and cells with nonspecific phages) did not reveal any surface changes. Penetration of phages inside obligate aerobe Bacillus thuringiensis was shown to be oxygen-dependent and required aeration in laboratory conditions. Our results show great potential of using AFM for numerous fundamental and applied tasks connected with pathogen-host interaction.

Published

2008

32. Polyelectrolyte thromboresistant affinity coatings for modification of devices contacting blood.

Author

Samoilova NA, Krayukhina MA, Novikova SP, Babushkina TA, Volkov IO, Komarova LI, Moukhametova LI, Aisina RB, Obraztsova EA, Yaminsky IV, and Yamskov IA

Subjects

Adsorption, Coated Materials, Biocompatible adverse effects, Coated Materials, Biocompatible standards, Equipment and Supplies, Humans, Polymers chemistry, Polymers therapeutic use, Static Electricity, Surface Properties, Thrombosis etiology, Blood metabolism, Coated Materials, Biocompatible chemistry, Thrombosis prevention & control

Abstract

The modification of hydrophobic polyethylene/polystyrene surfaces of medical devices with bilayer/multilayer coatings (BCs/MCs) based on polyelectrolyte complexes (PEC) of modified poly(N-vinylpyrrolidone-co-maleic acid) copolymer (VPMA) with chitosan, amphiphilic chitosan, or albumin was studied. The VPMA contained l-Lysine as affinity ligand for plasminogen attached through alpha-amino group. The surface properties and chemical composition of the surfaces investigated were analyzed, using sessile-drop water contact angle measurements, attenuated total reflectance Fourier-transform infrared spectroscopy (ATR-FTIR), X-ray photoelectron spectroscopy (XPS), and atomic force microscopy (AFM). The specific adsorption of plasminogen (precursor of fibrinolytic enzyme plasmin) from its solutions and from human blood plasma on the modified surfaces was investigated. It was established that polyelectrolyte MCs are more efficient than single-layer BCs and the affine polymer coatings without interlayer. A thrombogenicity decrease for the materials modified with BCs and MCs was shown in in vitro and ex vivo trials.

Published

2007

33. Self-assembly effect during the adsorption of polynucleotides on stearic acid langmuir-blodgett monolayer.

Author

Dubrovin EV, Staritsyn SN, Yakovenko SA, and Yaminsky IV

Subjects

Adsorption, Cations, Divalent, Microscopy, Atomic Force, Polynucleotides chemistry, Stearic Acids chemistry

Abstract

Interaction of polyadenylic acid, poly(A), with stearic acid Langmuir-Blodgett (LB) monolayer was studied in different electrolyte surroundings. For this purpose LB films of stearic acid, transferred on the mica substrate from poly(A) containing subphase, were analyzed with atomic force microscopy (AFM). The density of polynucleotides surface coverage is ruled by the monovalent electrolyte concentration in the subphase that is in good agreement with previous results. Divalent cations in the subphase are needed to stabilize poly(A) molecules on the surface through formation of "salt bridges". At the very low divalent electrolyte concentration polynucleotides adsorb on the LB film to domains in which the effect of self-assembly is observed. Increase of divalent electrolyte concentration leads to the loss of this orientation effect. The explanation of this effect is proposed.

Published

2007

34. Atomic force microscopy as a tool of inspection of viral infection.

Author

Dubrovin EV, Drygin YF, Novikov VK, and Yaminsky IV

Subjects

Humans, Reproducibility of Results, Sensitivity and Specificity, Image Interpretation, Computer-Assisted methods, Microscopy, Atomic Force methods, Virus Diseases pathology, Virus Diseases virology, Viruses classification, Viruses ultrastructure

Abstract

Here we present a short review of application of atomic force microscopy (AFM) for investigation of viruses, accompanied by examples of high-resolution AFM images of different viral particles. The possibility of using AFM to identify viruses is discussed.

Published

2007

35. Potato virus X RNA-mediated assembly of single-tailed ternary 'coat protein-RNA-movement protein' complexes.

Author

Karpova OV, Zayakina OV, Arkhipenko MV, Sheval EV, Kiselyova OI, Poljakov VY, Yaminsky IV, Rodionova NP, and Atabekov JG

Subjects

Biological Transport, Active, Capsid Proteins chemistry, Capsid Proteins genetics, Macromolecular Substances, Microscopy, Atomic Force, Microscopy, Immunoelectron, Plant Viral Movement Proteins, Potexvirus genetics, Protein Biosynthesis, RNA, Viral chemistry, RNA, Viral genetics, Viral Proteins chemistry, Viral Proteins genetics, Capsid Proteins metabolism, Potexvirus metabolism, RNA, Viral metabolism, Viral Proteins metabolism

Abstract

Different models have been proposed for the nature of the potexvirus transport form that moves from cell to cell over the infected plant: (i) genomic RNA moves as native virions; or (ii) in vitro-assembled non-virion ribonucleoprotein (RNP) complexes consisting of viral RNA, coat protein (CP) and movement protein (MP), termed TGBp1, serve as the transport form in vivo. As the structure of these RNPs has not been elucidated, the products assembled in vitro from potato virus X (PVX) RNA, CP and TGBp1 were characterized. The complexes appeared as single-tailed particles (STPs) with a helical, head-like structure composed of CP subunits located at the 5'-proximal region of PVX RNA; the TGBp1 was bound to the terminal CP molecules of the head. Remarkably, no particular non-virion RNP complexes were observed. These data suggest that the CP-RNA interactions resulting in head formation prevailed over TGBp1-RNA binding upon STP assembly from RNA, CP and TGBp1. STPs could be assembled from the 5' end of PVX RNA and CP in the absence of TGBp1. The translational ability of STPs was characterized in a cell-free translation system. STPs lacking TGBp1 were entirely non-translatable; however, they were rendered translatable by binding of TGBp1 to the end of the head. It is suggested that the RNA-mediated assembly of STPs proceeds via two steps. Firstly, non-translatable CP-RNA STPs are produced, due to encapsidation of the 5'-terminal region. Secondly, the TGBp1 molecules bind to the end of a polar head, resulting in conversion of the STPs into a translatable form.

Published

2006

36. Microbial surfaces investigated using atomic force microscopy.

Author

Bolshakova AV, Kiselyova OI, and Yaminsky IV

Subjects

Bacterial Adhesion, Cell Culture Techniques instrumentation, Cell Culture Techniques methods, Elasticity, Image Interpretation, Computer-Assisted methods, Micromanipulation instrumentation, Microscopy, Atomic Force instrumentation, Physical Stimulation instrumentation, Physical Stimulation methods, Specimen Handling methods, Spores, Bacterial growth & development, Spores, Bacterial ultrastructure, Surface Properties, Bacteria ultrastructure, Bacterial Physiological Phenomena, Micromanipulation methods, Microscopy, Atomic Force methods

Abstract

This paper is dedicated to atomic force microscopy (AFM) as a progressive tool for imaging bacterial surfaces and probing their properties. The description of the technique is complemented by the explanation of the method's artifacts typical, in particular, for the imaging of bacterial cells. Sample preparation techniques are summarized in a separate section. Special attention is paid to the differences in imaging of gram-positive and gram-negative bacteria. Probing of mechanical properties, including elastic modulus, fragility, and adhesion of the cell walls is emphasized. The advantages of AFM in the studies of real-time cellular dynamical processes are illustrated by the experiment with the germination of spores.

Published

2004

37. Structural organization of mRNA complexes with major core mRNP protein YB-1.

Author

Skabkin MA, Kiselyova OI, Chernov KG, Sorokin AV, Dubrovin EV, Yaminsky IV, Vasiliev VD, and Ovchinnikov LP

Subjects

Animals, Centrifugation, Density Gradient, Globins genetics, Macromolecular Substances, Microscopy, Atomic Force, RNA-Binding Proteins chemistry, Repressor Proteins chemistry, Ribonucleoproteins metabolism, Ribonucleoproteins ultrastructure, RNA, Messenger metabolism, RNA-Binding Proteins metabolism, Repressor Proteins metabolism, Ribonucleoproteins chemistry

Abstract

YB-1 is a universal major protein of cytoplasmic mRNPs, a member of the family of multifunctional cold shock domain proteins (CSD proteins). Depending on its amount on mRNA, YB-1 stimulates or inhibits mRNA translation. In this study, we have analyzed complexes formed in vitro at various YB-1 to mRNA ratios, including those typical for polysomal (translatable) and free (untranslatable) mRNPs. We have shown that at mRNA saturation with YB-1, this protein alone is sufficient to form mRNPs with the protein/RNA ratio and the sedimentation coefficient typical for natural mRNPs. These complexes are dynamic structures in which the protein can easily migrate from one mRNA molecule to another. Biochemical studies combined with atomic force microscopy and electron microscopy showed that mRNA-YB-1 complexes with a low YB-1/mRNA ratio typical for polysomal mRNPs are incompact; there, YB-1 binds to mRNA as a monomer with its both RNA-binding domains. At a high YB-1/mRNA ratio typical for untranslatable mRNPs, mRNA-bound YB-1 forms multimeric protein complexes where YB-1 binds to mRNA predominantly with its N-terminal part. A multimeric YB-1 comprises about twenty monomeric subunits; its molecular mass is about 700 kDa, and it packs a 600-700 nt mRNA segment on its surface.

Published

2004

38. Atomic force microscopy of protein complexes.

Author

Kiselyova OI and Yaminsky IV

Subjects

Cytochrome P-450 Enzyme System metabolism, Image Processing, Computer-Assisted, Macromolecular Substances, Microscopy, Atomic Force instrumentation, NADPH-Ferrihemoprotein Reductase metabolism, Particle Size, Surface Properties, Cytochrome P-450 Enzyme System ultrastructure, Microscopy, Atomic Force methods, NADPH-Ferrihemoprotein Reductase ultrastructure

Published

2004

39. AFM study of potato virus X disassembly induced by movement protein.

Author

Kiselyova OI, Yaminsky IV, Karpova OV, Rodionova NP, Kozlovsky SV, Arkhipenko MV, and Atabekov JG

Subjects

Capsid Proteins metabolism, Capsid Proteins ultrastructure, Macromolecular Substances, Microscopy, Atomic Force, Plant Viral Movement Proteins, Potexvirus metabolism, Protein Binding, RNA, Viral, Viral Proteins metabolism, Viral Proteins ultrastructure, Virion genetics, Virion metabolism, Capsid Proteins chemistry, Potexvirus chemistry, Protein Conformation, Viral Proteins chemistry

Abstract

Recently we have reported that a selective binding of potato virus X (PVX)-coded movement protein (termed TGBp1 MP) to one end of a polar coat protein (CP) helix converted viral RNA into a translatable form and induced a linear destabilization of the whole helical particle. Here, the native PVX virions, RNase-treated (PVX(RNA-DEG)) helical particles lacking intact RNA and their complexes with TGBp1 (TGBp1-PVX and TGBp1-PVX(RNA-DEG)), were examined by atomic force microscopy (AFM). When complexes of the TGBp1 MP with PVX were examined by means of AFM in liquid, no structural reorganization of PVX particles was observed. By contrast, the products of TGBp1-dependent PVX degradation termed "beads-on-string" were formed under conditions of AFM in air. The AFM images of PVX(RNA-DEG) were indistinguishable from images of native PVX particles; however, the TGBp1-dependent disassembly of the CP-helix was triggered when the TGBp1-PVX(RNA-DEG) complexes were examined by AFM, regardless of the conditions used (in air or in liquid). Our data supported the idea that binding of TGBp1 to one end of the PVX CP-helix induced linear destabilization of the whole helical particle, which may lead to its disassembly under conditions of AFM.

Published

2003

40. Visualization by atomic force microscopy of tobacco mosaic virus movement protein-RNA complexes formed in vitro.

Author

Kiselyova OI, Yaminsky IV, Karger EM, Frolova OY, Dorokhov YL, and Atabekov JG

Subjects

Aluminum Silicates, Models, Molecular, Plant Viral Movement Proteins, Plants, Toxic, Protein Binding, Protein Structure, Quaternary, RNA, Viral chemical synthesis, RNA, Viral genetics, RNA-Binding Proteins chemistry, RNA-Binding Proteins metabolism, RNA-Binding Proteins ultrastructure, Ribonucleases metabolism, Nicotiana virology, Viral Proteins chemistry, Microscopy, Atomic Force, RNA, Viral metabolism, RNA, Viral ultrastructure, Tobacco Mosaic Virus chemistry, Tobacco Mosaic Virus genetics, Viral Proteins metabolism, Viral Proteins ultrastructure

Abstract

The structure of complexes formed in vitro by tobacco mosaic virus (TMV)-coded movement protein (MP) with TMV RNA and short (890 nt) synthetic RNA transcripts was visualized by atomic force microscopy on a mica surface. MP molecules were found to be distributed along the chain of RNA and the structure of MP-RNA complexes depended on the molar MP:RNA ratios at which the complexes were formed. A rise in the molar MP:TMV RNA ratio from 20:1 to 60-100:1 resulted in an increase in the density of the MP packaging on TMV RNA and structural conversion of complexes from RNase-sensitive 'beads-on-a-string' into a 'thick string' form that was partly resistant to RNAse. The 'thick string'-type RNase-resistant complexes were also produced by short synthetic RNA transcripts at different MP:RNA ratios. The 'thick string' complexes are suggested to represent clusters of MP molecules cooperatively bound to discrete regions of TMV RNA and separated by protein-free RNA segments.

Published

2001

41. Comparative studies of bacteria with an atomic force microscopy operating in different modes.

Author

Bolshakova AV, Kiselyova OI, Filonov AS, Frolova OY, Lyubchenko YL, and Yaminsky IV

Subjects

Air Microbiology, Culture Media, Muramidase metabolism, Surface Properties, Water, Water Microbiology, Escherichia coli physiology, Escherichia coli ultrastructure, Microscopy, Atomic Force methods

Abstract

Escherichia coli bacterial cells of two strains JM109 and K12 J62 were imaged with atomic force microscopy (AFM) in different environmental conditions. The AFM results show that the two strains have considerable difference in the surface morphology. At the same time after rehydration both strains show the loss of the topographic features and increase in lateral and vertical dimensions. Results obtained in different AFM modes (contact, tapping, MAC) were compared. Imaging in culture medium was applied for direct observation of the surface degradation effect of lysozyme. The treatment of the cells with the enzyme in the culture medium lead to the loss of surface rigidity and eventually to dramatic changes of the bacteria shape.

Published

2001

42. Interplay between folding/unfolding and helix/coil transitions in giant DNA.

Author

Mikhailenko SV, Sergeyev VG, Zinchenko AA, Gallyamov MO, Yaminsky IV, and Yoshikawa K

Subjects

Circular Dichroism, Microscopy, Fluorescence, Nucleic Acid Conformation, Solvents, Spectrometry, Fluorescence, Spectrophotometry, Ultraviolet, Temperature, DNA chemistry

Abstract

It has been well established that double-stranded DNA undergoes a melting, or helix/coil, transition into a single-stranded coil state with an increase in temperature. On the other hand, it has recently been found that, at a fixed temperature, long DNA, larger than several kilobase pairs, exhibits a discrete transition, or switching, between elongated and folded states, preserving its double-stranded structure, with the addition of various condensation agents, such as alcohol, hydrophilic polymer, multivalent cation, and cationic surfactant. In the present study, we examined the interplay between the folding/unfolding transition and the helix/coil transition in individual giant DNA molecules, by observing the conformation of single molecular chains with fluorescence microscopy. The results indicate that the helix-to-coil transition tightly cooperates with the unfolding transition in DNA.

Published

2000

43. Structural and functional properties of Langmuir films of antibodies based on amphiphilic polyelectrolytes.

Author

Budashov IA, Kurochkin IN, Tsibezov VV, Kalnov SL, Denisov AK, Kiselyova OI, and Yaminsky IV

Subjects

Biosensing Techniques methods, Antibodies immunology, Antibodies metabolism, Electrolytes metabolism, Immunosorbent Techniques, Membranes, Artificial, Polymers metabolism

Abstract

We optimized the procedure for the formation of Langmuir films of antibodies based on amphiphilic polyelectrolytes and studied the physicochemical and immunochemical properties of the films obtained. Their immunochemical properties were compared with the immunochemical activity of antibodies in Langmuir films without amphiphilic polyelectrolytes and with antibodies adsorbed on the surface of polystyrene and graphite. The efficiency of immune adsorption by the films based on amphiphilic polyelectrolytes was shown to be greater; the affinity of antibodies and surface concentration of their active conformation depended on the type of amphiphilic polyelectrolytes used to obtain the films. We investigated the structure of these films at the surface of highly oriented pyrolytic graphite using the method of atomic force microscopy. Changes in the structure of the films under study caused by the increase of surface pressure were demonstrated.

Published

2000

44. AFM study of membrane proteins, cytochrome P450 2B4, and NADPH-cytochrome P450 reductase and their complex formation.

Author

Kiselyova OI, Yaminsky IV, Ivanov YD, Kanaeva IP, Kuznetsov VY, and Archakov AI

Subjects

Animals, Flavoproteins chemistry, Flavoproteins metabolism, Hemeproteins metabolism, Hemeproteins ultrastructure, Macromolecular Substances, Microscopy, Atomic Force methods, Microsomes, Liver enzymology, Oxidation-Reduction, Rabbits, Aryl Hydrocarbon Hydroxylases, Cytochrome P-450 Enzyme System metabolism, Cytochrome P-450 Enzyme System ultrastructure, NADPH-Ferrihemoprotein Reductase metabolism, NADPH-Ferrihemoprotein Reductase ultrastructure, Steroid Hydroxylases metabolism, Steroid Hydroxylases ultrastructure

Abstract

The application of the AFM technique for visualization of membrane proteins and for measuring their dimensions was demonstrated. The AFM images of the microsomal monooxygenase system components-cytochrome P450 2B4 and NADPH-cytochrome P450 reductase-were obtained by using two types of supports-hydrophobic, highly oriented pyrolytic graphite (HOPG) and hydrophilic mica. It was shown that hemo- and flavoprotein monomers and oligomers can be adsorbed to and visualized on HOPG. On the negatively charged mica matrix, flavoprotein oligomers dissociated to monomers while hemoprotein oligomers dissociated into less aggregated particles. The images of cytochrome P450 2B4 and NADPH-cytochrome P450 reductase monomers were about 3 and 5 nm high, respectively, while the images of oligomeric forms of these proteins were about 10 and 8 nm high, respectively. We were able to observe the binary complexes composed of monomeric proteins, cytochrome P450 2B4 and its reductase and to measure the heights of these complexes (7 nm). The method is applicable for visualization of not only individual proteins but also their complexes., (Copyright 1999 Academic Press.)

Published

1999

45. Atomic force microscopy examination of tobacco mosaic virus and virion RNA.

Author

Drygin YF, Bordunova OA, Gallyamov MO, and Yaminsky IV

Subjects

Microscopy, Atomic Force, Tobacco Mosaic Virus genetics, Virion ultrastructure, RNA, Viral ultrastructure, Tobacco Mosaic Virus ultrastructure

Abstract

Atomic force microscopy (AFM) was applied to study uncoated virus particles and RNA prepared by stripping of tobacco mosaic virions (TMV) with mild alkali or urea and dimethylsulfoxide. We found that AFM is an appropriate method to study ribonucleoprotein and free RNA structures. Images of entire tobacco mosaic virions, partially uncoated TMV particles with protruding RNA molecule from one or both ends and individual RNA molecules are presented.

Published

1998

46. Scanning tunneling microscopy study of cytochrome P450 2B4 incorporated in proteoliposomes.

Author

Uvarov VYu, Ivanov YD, Romanov AN, Gallyamov MO, Kiselyova OI, and Yaminsky IV

Subjects

Animals, Cytochrome P-450 Enzyme System metabolism, Heme, Microscopy, Scanning Tunneling, Rats, Steroid Hydroxylases metabolism, Aryl Hydrocarbon Hydroxylases, Cytochrome P-450 Enzyme System ultrastructure, Proteolipids metabolism, Steroid Hydroxylases ultrastructure

Abstract

In the present paper, the application of scanning tunneling microscopy in cytochrome P450s membrane topology is discussed. The method enables visualization of heme location in the lipid-bilayer-incorporated protein. It is supposed that the membrane-bound cytochrome P450 on the tunneling microscope substrate should behave as 'molecular diode'. A model explaining the liposome and the proteoliposome images observed is proposed.

Published

1996