Your search keyword '"Victor V"' showing total 1,857 results

1. Laser Scanning Method for Time-Resolved Measurements of Wavefront Distortion Introduced by Active Elements in High-Power Laser Amplifiers.

Author

Kuptsova, Alyona O., Kuptsov, Gleb V., Petrov, Vladimir A., Atuchin, Victor V., and Petrov, Victor V.

Subjects

FOCAL length, TIME-resolved measurements, TEMPERATURE distribution, TEMPERATURE measurements, POPULATION density

Abstract

A novel method was proposed for the experimental investigation of wavefront distortion introduced to amplified radiation by pumped active elements in high-power laser amplifiers. The method is based on the simultaneous measurement of temperature distribution and the distribution of population density of the excited laser level in active elements. The underlying theory of the technique was presented; various factors affecting the accuracy of wavefront distortion determination were analyzed. The method was tested to study the wavefront distortion and the depolarization of radiation introduced by the Yb:YAG active element of a cryogenically cooled laser amplifier with high-power diode pumping. The focal length of the thermal lens was 0.40 ± 0.03 and 0.47 ± 0.05 m for the horizontal and vertical planes, respectively. The focal length of the electron lens was two orders of magnitude larger. The maximum value of losses induced by depolarization was 8.5%. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Preliminary Assessment of the Usability of Magnetoplasma Compressors in Scientific and Technical Applications.

Author

Kuzenov, Victor V., Varaksin, Aleksey Yu., and Ryzhkov, Sergei V.

Subjects

*LASERS, *PLASMA instabilities, *GAS lasers, *PLASMA gases, *PLASMA heating

Abstract

This paper presents a preliminary analysis of the plasma dynamic modes of operation of end-type magnetoplasma compressor (MPC) discharges. The characteristic methods used to organize the optical pumping of a photodissociation gas laser using an MPC discharge are briefly described. The kinetic and energy characteristics of photodissociation gas optical quantum generators (OQGs) with optical pumping by an MPC discharge were evaluated. Based on the numerical calculations, an analysis of the radiation–plasma dynamic structures and the spectral brightness characteristics of the MPC discharge in the ohmic mode of plasma heating was carried out. [ABSTRACT FROM AUTHOR]

Published

2024

3. On the Applicability of Kramers–Kronig Dispersion Relations to Guided and Surface Waves.

Author

Krylov, Victor V.

Subjects

MATHEMATICAL complex analysis, ACOUSTIC waveguides, ACOUSTIC surface waves, PHYSICAL acoustics, WAVE energy

Abstract

In unbounded media, the acoustic attenuation as function of frequency is related to the frequency-dependent sound velocity (dispersion) via Kramers–Kronig dispersion relations. These relations are fundamentally important for better understanding of the nature of attenuation and dispersion and as a tool in physical acoustics measurements, where they can be used for control purposes. However, physical acoustic measurements are frequently carried out not in unbounded media but in acoustic waveguides, e.g., inside liquid-filled pipes. Surface acoustic waves are also often used for physical acoustics measurements. In the present work, the applicability of Kramers–Kronig relations to guided and surface waves is investigated using the approach based on the theory of functions of complex variables. It is demonstrated that Kramers–Kronig relations have limited applicability to guided and surface waves. In particular, they are not applicable to waves propagating in waveguides characterised by the possibility of wave energy leakage from the waveguides into the surrounding medium. For waveguides without leakages, e.g., those formed by rigid walls, Kramers–Kronig relations remain valid for both ideal and viscous liquids. Examples of numerical calculations of wave dispersion and attenuation using Kramers–Kronig relations, where applicable, are presented for unbounded media and for waveguides formed by two rigid walls. [ABSTRACT FROM AUTHOR]

Published

2024

4. Growth, Spectroscopic Characterization and Continuous-Wave Laser Operation of Er,Yb:GdMgB 5 O 10 Crystal.

Author

Gorbachenya, Konstantin N., Volkova, Elena A., Maltsev, Victor V., Kisel, Victor E., Mitina, Diana D., Koporulina, Elizaveta V., Kuzmin, Nikolai N., Marchenko, Ekaterina I., and Kosorukov, Vladimir L.

Subjects

DIFFERENTIAL scanning calorimetry, YTTERBIUM ions, SINGLE crystals, MOLECULAR spectra, ABSORPTION spectra

Abstract

A transparent Er3+,Yb3+:GdMgB5O10 single crystal with dimensions up to 24 × 15 × 12 mm was grown successfully by the high-temperature solution growth on dipped seeds technique from K2Mo3O10-based solvent. The grown crystal was characterized using PXRD, DSC and ATR techniques. Differential scanning calorimetry measurements and SEM analysis of the heat-treated solids revealed Er,Yb:GdMgB5O10 to be an incongruent melting compound with an onset point of 1087 °C. The absorption edge of the Er,Yb:GMBO sample is located in the region of 245 nm, which approximates a value of 4.8 eV. Absorption and emission spectra, and luminescence kinetics, were studied. The energy transfer efficiency from ytterbium to erbium ions was determined. The laser operation in continuous-wave mode was realized and output characteristics were measured. The maximal output power of 0.15 W with a slope efficiency of 11% was obtained at 1568 nm. [ABSTRACT FROM AUTHOR]

Published

2024

5. Kazakhstan Has an Unexpected Diversity of Medicinal Plants of the Genus Acorus (Acoraceae) and Could Be a Cradle of the Triploid Species A. calamus.

Author

Sokoloff, Dmitry D., Degtjareva, Galina V., Valiejo-Roman, Carmen M., Severova, Elena E., Barinova, Sophia, Chepinoga, Victor V., Kuzmin, Igor V., Sennikov, Alexander N., Shmakov, Alexander I., Skaptsov, Mikhail V., Smirnov, Sergey V., and Remizowa, Margarita V.

Subjects

PLANT diversity, WATERSHEDS, RESEARCH personnel, MOLECULAR evolution, TRADITIONAL medicine

Abstract

The Acorus calamus group, or sweet flag, includes important medicinal plants and is classified into three species: A. americanus (diploid), A. verus (tetraploid), and A. calamus (sterile triploid of hybrid origin). Members of the group are famous as components of traditional Indian medicine, and early researchers suggested the origin of the sweet flag in tropical Asia. Subsequent research led to an idea of the origin of the triploid A. calamus in the Amur River basin in temperate Asia, because this was the only region where both diploids and tetraploids were known to co-occur and be capable of sexual reproduction. Contrary to this hypothesis, triploids are currently very rare in the Amur basin. Here, we provide the first evidence that all three species occur in Kazakhstan. The new records extend earlier data on the range of A. verus for c. 1800 km. Along the valley of the Irtysh River in Kazakhstan and the adjacent Omsk Oblast of Russia, A. verus is recorded in the south, A. americanus in the north, and A. calamus is common in between. We propose the Irtysh River valley as another candidate for a cradle of the triploid species A. calamus. It is possible that the range of at least one parent species (A. americanus) has contracted through competition with its triploid derivative species, for which the Irtysh River floods provide a tool for downstream range expansion. We refine our earlier data and show that the two parent species have non-overlapping ranges of variation in a quantitative metric of leaf aerenchyma structure. [ABSTRACT FROM AUTHOR]

Published

2024

6. Remediation of Sulfides in Produced Waters of the Oil and Gas Industry Using Hydrogen Peroxide.

Author

Schovan, Samantha, McEachern, Grant, Seeger, Alexandria, Nguyen, Victor V., Burkes, Bobby, Adhikary, Amitava, and Schweitzer, Linda E.

Subjects

IRON catalysts, COPPER catalysts, OIL field brines, METAL catalysts, OXIDATION-reduction potential, METAL sulfides

Abstract

Produced waters are often treated in open lagoons where hydrogen sulfide (H2S) can off gas, posing a risk to human health and the environment. The aim of this study was to optimize a treatment process using hydrogen peroxide (H2O2) to oxidize H2S while minimizing off gassing. Samples of produced water from West Texas and laboratory-prepared waters utilizing sodium sulfide (Na2S) or biogenic polysulfides were oxidized with H2O2 alone or in combination with copper or iron catalysts, sodium hydroxide (NaOH), or a commercial sulfide oxidizer, HydroPower Green™. Sulfur speciation was measured using Hach test kits for sulfide/sulfate/sulfite and Dräger tubes for headspace H2S. HydroPower Green™ (HPG) helped to reduce H2S in the headspace of water samples; some of this was pH related as NaOH also worked, but not as well as HPG. The dose of peroxide necessary to oxidize sulfides to sulfate is a function of the oxidation-reduction potential (Eh) of the water and total sulfide concentration as well as pH; approximately a 1–4:1 ratio of peroxide to sulfide concentration was needed to oxidize sulfidic waters of pH 7–10 with half-lives under 30 min. Both copper and iron catalysts reduce H2O2 demand and the half-life of H2S. Peracetic acid (PAA) and copper (II) sulfate pentahydrate (CuSO4, 5H2O) were explored as biocides for controlling sulfate-reducing bacteria (SRBs) that produce H2S. An AquaSnap (Hygenia) test kit was employed to monitor relative microbial activity in a wetland porewater containing H2S. Microbial regrowth occurred after a few days using the highest dose of PAA; these results showed that PAA was being used by bacteria as a carbon source even after the initial substantial reduction in the microbial activity. CuSO4, 5H2O at a dose of 1 ppm prevented microbial regrowth. The recommended treatment process from this research is determined by jar testing with H2O2, a base for pH control, a biocide, and possibly a metal catalyst or other co-oxidants in order to achieve oxidation of sulfides without H2S release or the precipitation of metal carbonates or oxides. [ABSTRACT FROM AUTHOR]

Published

2024

7. Transverse and Longitudinal Energy Flows in a Sharp Focus of Vortex and Cylindrical Vector Beams.

Author

Kotlyar, Victor V., Kovalev, Alexey A., Nalimov, Anton G., Stafeev, Sergey S., and Telegin, Alexey M.

Subjects

FOCAL planes, ANGULAR momentum (Mechanics), POYNTING theorem, HALL effect, CIRCULAR polarization, VECTOR beams

Abstract

It is shown in this work that, with strong focusing of a beam with optical vortex and circular polarization, three energy flows take place in the focal plane: direct longitudinal, reverse longitudinal and azimuthal transverse flows. Calculations are made analytically using the Richards–Wolf formalism and by numerical simulation. Moreover, the energy rotation at different lengths from the optical axis occurs in different directions. Therefore, the focal plane intersects along the optical axis only part of the initial beam energy per unit time. The same energy part (other things being equal) intersects the focal plane along the positive direction of the optical axis when an optical vortex with cylindrical polarization is focused. The difference is that, if an optical vortex is present, then the transverse energy flux at the focus rotates around the optical axis. If an optical vortex is not present (a beam with only cylindrical polarization), then the average transverse flow in the focal plane is zero, though, in some regions in the focal plane, the flow is directed towards the optical axis and, in other regions, away from it. This behavior of the transverse energy flow at the focus (flow direction towards the optical axis and away from the optical axis) of a cylindrical vector beam can be deemed another kind of Hall effect. [ABSTRACT FROM AUTHOR]

Published

2024

8. Carabid Beetles under the Influence of Megafires in Pine and Secondary Forests of Central European Russia.

Author

Aleksanov, Victor V., Alekseev, Sergei K., Ruchin, Alexander B., and Esin, Mikhail N.

Subjects

*GROUND beetles, *POPULATION differentiation, *SECONDARY forests, *NUMBERS of species, *COLONIZATION (Ecology)

Abstract

The identification of patterns and mechanisms of wildfire effects on biodiversity is of significant conservation importance. The research was conducted in a zone of mixed and broad-leaved forests. Carabid beetles were studied in eight sample plots that varied in relation to the 2010 and 2021 fires through 2022 and 2023. A total of 8667 specimens of 108 species of carabid beetles were counted. In 2022, plots were clearly differentiated by the pyrogenic disturbance in terms of the carabid species structure. As the pyrogenic disturbance increases, the total abundance of brachypterous as well as herbivore species decreases sharply. The carabids that were the most prevalent in an undisturbed forest (Carabus arcensis, Carabus glabratus, Pterostichus oblongopunctatus, and Amara brunnea) demonstrated sensitivity to the 2010 fire. The pyrophilous species Pterostichus quadrifoveolatus and Sericoda quadripunctata were attracted to a moderately burned area. Poecilus lepidus is confined to areas burned in 2010 and not affected by the 2021 fire. A moderately burned area was characterized by increased abundance and number of species. In 2023, the degree of similarity of carabid populations between sample plots did not generally increase, but only the 2010 fire was identified as a significant factor in population differentiation. The abundance of carabids decreased in a moderately burned area and an unburned area near the fire edge. The abundance and number of species increased markedly in heavily burned areas due to open habitat species, while the abundance of Carabus arcensis and Amara brunnea decreased in unburned areas. Forest megafires threaten the biodiversity of carabid beetles in pine and secondary forests. [ABSTRACT FROM AUTHOR]

Published

2024

9. Superelectrophilic Activation of Phosphacoumarins towards Weak Nucleophiles via Brønsted Acid Assisted Brønsted Acid Catalysis.

Author

Zalaltdinova, Alena V., Sadykova, Yulia M., Gazizov, Almir S., Smailov, Atabek K., Syakaev, Victor V., Gerasimova, Daria P., Chugunova, Elena A., Akylbekov, Nurgali I., Zhapparbergenov, Rakhmetulla U., Appazov, Nurbol O., Burilov, Alexander R., Pudovik, Michail A., Alabugin, Igor V., and Sinyashin, Oleg G.

Subjects

BRONSTED acids, NUCLEOPHILES, SUPERACIDS, CATALYSIS, TRIFLUOROACETIC acid

Abstract

The electrophilic activation of various substrates via double or even triple protonation in superacidic media enables reactions with extremely weak nucleophiles. Despite the significant progress in this area, the utility of organophosphorus compounds as superelectrophiles still remains limited. Additionally, the most common superacids require a special care due to their high toxicity, exceptional corrosiveness and moisture sensitivity. Herein, we report the first successful application of the "Brønsted acid assisted Brønsted acid" concept for the superelectrophilic activation of 2-hydroxybenzo[e][1,2]oxaphosphinine 2-oxides (phosphacoumarins). The pivotal role is attributed to the tendency of the phosphoryl moiety to form hydrogen-bonded complexes, which enables the formation of dicationic species and increases the electrophilicity of the phosphacoumarin. This unmasks the reactivity of phosphacoumarins towards non-activated aromatics, while requiring only relatively non-benign trifluoroacetic acid as the reaction medium. [ABSTRACT FROM AUTHOR]

Published

2024

10. Segregated Conductive Polymer Composite with Fe 3 O 4 -Decorated Graphite Nanoparticles for Microwave Shielding.

Author

Matzui, Ludmila Yu., Syvolozhskyi, Oleksii A., Vovchenko, Ludmila L., Yakovenko, Olena S., Len, Tetyana A., Ischenko, Olena V., Vakaliuk, Anna V., Oliynyk, Victor V., Zagorodnii, Volodymyr V., Naumenko, Antonina, Cojocari, Maria, Fedorov, Georgy, and Kuzhir, Polina

Subjects

IRON oxides, NANOPARTICLES, COMPOSITE materials, CONDUCTING polymer composites, CONDUCTING polymers, GRAPHITE, ELECTROMAGNETIC interference

Abstract

Graphite nanoplatelets (GNPs)—the segregated ultra-high molecular weight polyethylene (UHMWPE)-based composites with hybrid filler—decorated with Fe3O4 were developed. Using X-ray diffraction and scanning electron microscopy, it was shown that the decorated component has the shape of separate granules, or their clusters were distributed evenly over the GNPs surface. The individual Fe3O4 nanoparticles are predominantly rounded, with diameters of approximately 20–60 nm. The use of GNPs/Fe3O4 as a filler leads to significant decreases in the percolation limit φc, 0.97 vol% vs. 0.56 vol% for GNPs/UHMWPE- and (GNPs/Fe3O4)/UHMWPE segregated composite material (SCM), respectively. Modification of the GNP surface with Fe3O4 leads to an essential improvement in the electromagnetic interference shielding due to enhanced microwave absorption in the 26–37 GHz frequency range in its turn by abundant surface functional groups and lattice defects of GNPs/Fe3O4 nanoparticles. [ABSTRACT FROM AUTHOR]

Published

2024

11. Cyanoacetohydrazide as a Novel Derivatization Agent for the Determination of UHPLC-HRMS Steroids in Urine.

Author

Temerdashev, Azamat, Zorina, Maria, Feng, Yu-Qi, Gashimova, Elina, Dotsenko, Victor V., Ioutsi, Vitalij, and Atapattu, Sanka N.

Subjects

DERIVATIZATION, COLLISION induced dissociation, STEROIDS, URINE, DETECTION limit, URINALYSIS, HYDROXYLAMINE

Abstract

The possibility of cyanoacetohydrazide usage as a novel derivatizing agent is demonstrated in the presented article, and a comparison with hydroxylamine as the most commonly used reagent is provided. Optimal conditions for steroid derivatization with cyanoacetohydrazide are provided. According to the collected data, the maximum yield of derivatives was observed at pH 2.8 within 70 min at 40 °C with 5 ng/mL limit of detection for all investigated analytes. It was shown that cyanoacetohydrazide derivatives produces both syn- and anti-forms as well as hydroxylamine, and their ratios were evaluated and shown in presented work. An efficiency enchantment from two to up to five times was achieved with a novel derivatization reagent. Its applicability for qualitative analysis of steroids in urine was presented at real samples. Additionally, the reproducible fragmentation of the derivatizing agent in collision-induced dissociation offers opportunities for simplified non-targeted steroidomic screening. Furthermore, cyanoacetohydrazide increases ionization efficiency in positive mode, which can eliminate the need for redundant high-resolution instrument runs required for both positive and negative mode analyses. [ABSTRACT FROM AUTHOR]

Published

2024

12. The Reaction of 1,6-Diamino-4-aryl-2-oxo-1,2-dihydropyridine- 3,5-Dicarbonitriles with Certain Electrophilic Agents

Author

Dolganov, Alexei A., primary, Chikava, Alexandra R., additional, and Dotsenko, Victor V., additional

Published

2023

13. Rationalizing Graphene–ZnO Composites for Gas Sensing via Functionalization with Amines.

Author

Rabchinskii, Maxim K., Sysoev, Victor V., Brzhezinskaya, Maria, Solomatin, Maksim A., Gabrelian, Vladimir S., Kirilenko, Demid A., Stolyarova, Dina Yu., Saveliev, Sviatoslav D., Shvidchenko, Alexander V., Cherviakova, Polina D., Varezhnikov, Alexey S., Pavlov, Sergey I., Ryzhkov, Sergei A., Khalturin, Boris G., Prasolov, Nikita D., and Brunkov, Pavel N.

Subjects

*FISHER discriminant analysis, *AMINES, *P-N heterojunctions, *METALLIC oxides, *DETECTION limit

Abstract

The rational design of composites based on graphene/metal oxides is one of the pillars for advancing their application in various practical fields, particularly gas sensing. In this study, a uniform distribution of ZnO nanoparticles (NPs) through the graphene layer was achieved, taking advantage of amine functionalization. The beneficial effect of amine groups on the arrangement of ZnO NPs and the efficiency of their immobilization was revealed by core-level spectroscopy, pointing out strong ionic bonding between the aminated graphene (AmG) and ZnO. The stability of the resulting Am-ZnO nanocomposite was confirmed by demonstrating that its morphology remains unchanged even after prolonged heating up to 350 °C, as observed by electron microscopy. On-chip multisensor arrays composed of both AmG and Am-ZnO were fabricated and thoroughly tested, showing almost tenfold enhancement of the chemiresistive response upon decorating the AmG layer with ZnO nanoparticles, due to the formation of p-n heterojunctions. Operating at room temperature, the fabricated multisensor chips exhibited high robustness and a detection limit of 3.6 ppm and 5.1 ppm for ammonia and ethanol, respectively. Precise identification of the studied analytes was achieved by employing the pattern recognition technique based on linear discriminant analysis to process the acquired multisensor response. [ABSTRACT FROM AUTHOR]

Published

2024

14. Polarization Strips in the Focus of a Generalized Poincaré Beam.

Author

Kotlyar, Victor V., Kovalev, Alexey A., Telegin, Alexey M., and Kozlova, Elena Sergeevna

Subjects

LAGUERRE-Gaussian beams, ANGULAR momentum (Mechanics), FOCAL planes, CIRCULAR polarization, OPTICAL vortices, PLANE wavefronts

Abstract

We analyze the tight focusing of a generalized Poincaré beam using a Richards–Wolf formalism. Conventional Poincaré beams are superpositions of two Laguerre–Gaussian beams with orthogonal polarization, while the generalized Poincaré beams are composed of two arbitrary optical vortices with rotationally symmetric amplitudes. Analytical relationships for projections of the electric field in the focal plane are derived. Using the superposition of a right-handed circularly polarized plane wave and an optical vortex with a topological charge of −1 as an example, relationships for the intensity distribution and the longitudinal projection of the spin angular momentum vector are deduced. It is theoretically and numerically shown that the original beam has a topological charge of −1/2 and a C-point of circular polarization, and it is generated at the focal plane center, producing an on-axis C-line with a singularity index of −1/2 (a star). Furthermore, when making a full circle of some radius around the optical axis, the major axis vector of polarization ellipse is theoretically and numerically shown to form a one-sided polarization (Möbius) strip of order −3/2, which has three half-twists and a single 'patching' in which two oppositely directed vectors of the major axis of polarization ellipse occur close to each other. [ABSTRACT FROM AUTHOR]

Published

2024

15. Transverse Spin Hall Effect and Twisted Polarization Ribbons at the Sharp Focus.

Author

Kotlyar, Victor V., Kovalev, Alexey A., Telegin, Alexey M., Kozlova, Elena S., Stafeev, Sergey S., Kireev, Alexander, Guo, Kai, and Guo, Zhongyi

Subjects

SPIN Hall effect, VECTOR beams, ANGULAR momentum (Mechanics), FOCAL planes, CIRCULAR motion

Abstract

In this work, using a Richards-Wolf formalism, we derive explicit analytical relationships to describe vectors of the major and minor axes of polarization ellipses centered in the focal plane when focusing a cylindrical vector beam of integer order n. In these beams, the major axis of a polarization ellipse is found to lie in the focal plane, with the minor axis being perpendicular to the focal plane. This means that the polarization ellipse is perpendicular to the focal plane, with its polarization vector rotating either clockwise or anticlockwise and forming "photonic wheels". Considering that the wave vector is also perpendicular to the focal plane, we conclude that the polarization ellipse and the wave vector are in the same plane, so that at some point these can coincide, which is uncharacteristic of transverse electromagnetic oscillations. In a cylindrical vector beam, the spin angular momentum vector lies in the focal plane, so when making a circle centered on the optical axis, at some sections, the handedness of the spin vector and circular motion are the same, being opposite elsewhere. This effect may be called an azimuthal transverse spin Hall effect, unlike the familiar longitudinal spin Hall effect found at the sharp focus. The longitudinal spin Hall effect occurs when opposite-sign longitudinal projections of the spin angular momentum vector are spatially separated in the focal plane. In this work, we show that for the latter, there are always an even number of spatially separated regions and that, when making an axis-centered circle, the major-axis vector of polarization ellipse forms a two-sided twisted surface with an even number of twists. [ABSTRACT FROM AUTHOR]

Published

2024

16. Ultrasound Diagnosis and Near-Infrared Spectroscopy in the Study of Encephalopathy in Neonates Born under Asphyxia: Narrative Review.

Author

Lavrentev, Simeon N., Petrova, Anastasia S., Serova, Olga F., Vishnyakova, Polina, Kondratev, Maxim V., Gryzunova, Anastasia S., Zakharova, Nina I., Zubkov, Victor V., and Silachev, Denis N.

Subjects

BRAIN physiology, DOPPLER ultrasonography, NEAR infrared spectroscopy, HEMODYNAMICS, REACTIVE oxygen species, OXYGEN in the body, BRAIN injuries, ASPHYXIA neonatorum, CEREBRAL circulation, DISEASE complications

Abstract

Brain injury resulting from adverse events during pregnancy and delivery is the leading cause of neonatal morbidity and disability. Surviving neonates often suffer long-term motor, sensory, and cognitive impairments. Birth asphyxia is among the most common causes of neonatal encephalopathy. The integration of ultrasound, including Doppler ultrasound, and near-infrared spectroscopy (NIRS) offers a promising approach to understanding the pathology and diagnosis of encephalopathy in this special patient population. Ultrasound diagnosis can be very helpful for the assessment of structural abnormalities associated with neonatal encephalopathy such as alterations in brain structures (intraventricular hemorrhage, infarcts, hydrocephalus, white matter injury) and evaluation of morphologic changes. Doppler sonography is the most valuable method as it provides information about blood flow patterns and outcome prediction. NIRS provides valuable insight into the functional aspects of brain activity by measuring tissue oxygenation and blood flow. The combination of ultrasonography and NIRS may produce complementary information on structural and functional aspects of the brain. This review summarizes the current state of research, discusses advantages and limitations, and explores future directions to improve applicability and efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

17. Spin Angular Momentum at the Focus of a Superposition of an Optical Vortex and a Plane Wave with Linear Polarizations.

Author

Kotlyar, Victor V., Stafeev, Sergey S., Telegin, Alexey M., and Kozlova, Elena S.

Subjects

OPTICAL vortices, LINEAR polarization, ANGULAR momentum (Mechanics), PLANE wavefronts, SPIN Hall effect, FOCAL planes

Abstract

In this paper, tight focusing of a superposition of a vortex laser beam with topological charge n with linear polarization and a plane wave with the same linear polarization directed along the horizontal axis is considered. Using the Richards–Wolf formalism, analytical expressions are obtained for the intensity distribution and longitudinal projection of the spin angular momentum in the focal plane. It is shown that for even and odd numbers n, the intensity and the spin angular momentum have different symmetries: for even n they are symmetric about both Cartesian axes, and for odd n they are symmetric only about the vertical axis. The intensity distribution has n local maxima at the focus, and it is nonzero on the optical axis for any n. The distribution of the longitudinal spin angular momentum (spin density) in the focal plane has (n + 2) subwavelength regions with a positive spin angular momentum and (n + 2) regions with a negative spin angular momentum, the centers of which alternately lie on a circle of a certain radius with a center on the optical axis. This spin distribution with different signs demonstrates the spin Hall effect at the focus. Negative and positive spins are mutually compensated, and the total spin is equal to zero at the focus. We have shown that by changing the topological charge of the optical vortex, it is possible to control the spin Hall effect at the focus, that is, to change the number of regions with spins of different signs. [ABSTRACT FROM AUTHOR]

Published

2024

18. Formation of Conductive Networks in Polysulfone Filled with Graphite-Derived Materials.

Author

Mohammad, Hussam, Stepashkin, Andrey A., and Tcherdyntsev, Victor V.

Subjects

FILLER materials, COMPOSITE materials, THERMAL conductivity, CARBON-black, ELECTRIC conductivity, GRAPHITE

Abstract

Composites based on polysulfone materials filled with various types of graphite and carbon black were studied and a solution technique was used to create composite materials with filling degrees ranging from 30 to 70% by weight. High filling levels with graphite fillers enabled thermal conductivity of 17.4 W/m·K to be achieved. The addition of carbon black as a filler to the composite helped to improve its mechanical characteristics, and its influence on electrical and thermal conductivity has also been explored. Natural graphite provides the best effect on composite thermal and electrical properties, whereas using artificial graphite allows to improve the mechanical behavior of composites. The relationship between sample density, porosity, and composition, as well as the effect of these factors on composite conductivity, has been studied and addressed. [ABSTRACT FROM AUTHOR]

Published

2024

19. Surface Treatment Effect on the Mechanical and Thermal Behavior of the Glass Fabric Reinforced Polysulfone.

Author

Sherif, Galal, Chukov, Dilyus I., Tcherdyntsev, Victor V., Stepashkin, Andrey A., Zadorozhnyy, Mikhail Y., Shulga, Yury M., and Kabachkov, Eugene N.

Subjects

SURFACE preparation, CHEMICAL bonds, GLASS fibers, SILANE coupling agents, UNIFORM polymers, TREATMENT effectiveness, FIBROUS composites, GLASS composites

Abstract

The chemical structure of the surface of glass fibers, including silanized fibers, was studied. Highly efficient heat-resistant composites were obtained by impregnating silanized glass fiber with a polysulfone solution, and the effect of modification of the surface of glass fibers on the physical, mechanical and thermophysical properties of the composite materials was studied. As a result of the study, it was found that the fiber-to-polymer ratio of 70/30 wt.% showed the best mechanical properties for composites reinforced with pre-heat-treated and silanized glass fibers. It has been established that the chemical treatment of the glass fibers with silanes makes it possible to increase the mechanical properties by 1.5 times compared to composites reinforced with initial fibers. It was found that the use of silane coupling agents made it possible to increase the thermal stability of the composites. Mechanisms that improve the interfacial interaction between the glass fibers and the polymer matrix have been identified. It has been shown that an increase in adhesion occurs both due to the uniform distribution of the polymer on the surface of the glass fibers and due to the improved wettability of the fibers by the polymer. An interpenetrating network was formed in the interfacial region, providing a chemical bond between the functional groups on the surface of the glass fiber and the polymer matrix, which was formed as a result of treating the glass fiber surface with silanes, It has been shown that when treated with aminopropyltriethoxysilane, significant functional unprotonated amino groups NH+/NH2+ are formed on the surface of the fibers; such free amino groups, oriented in the direction from the fiber surface, form strong bonds with the matrix polymer. Based on experimental data, the chemical structure of the polymer/glass fiber interface was identified. [ABSTRACT FROM AUTHOR]

Published

2024

20. Influence of Interfacial Interaction and Composition on Fracture Toughness and Impact Properties of Carbon Fiber-Reinforced Polyethersulfone.

Author

Torokhov, Valerii G., Chukov, Dilyus I., Tcherdyntsev, Victor V., Stepashkin, Andrey A., and Zadorozhnyy, Mikhail Y.

Subjects

FRACTURE toughness, POLYETHERSULFONE, FRACTURE toughness testing, FRACTOGRAPHY, CARBON fibers, IMPACT strength

Abstract

In this study, the interlaminar fracture toughness and impact strength of polyethersulfone reinforced with continuous carbon fibers were studied. Interlaminar fracture toughness tests were performed using the double cantilever beam method. It was shown that surface modification using the thermal oxidation method of the carbon fibers can strongly increase the interlaminar fracture toughness of the obtained composites. Thus, the maximum value reached 1.72 kJ/m2, which was 40% higher than the fracture toughness of the composites reinforced with initial carbon fibers. Moreover, fractographic analysis using a scanning electron microscope allowed us to highlight the main reasons for the dependence of fracture toughness on fiber content and surface modification conditions of the carbon fibers. It was shown that the main factor that allowed for an increase in fracture toughness was the enhanced interfacial interaction between the fibers and polymer matrix. Additionally, it was found that expectedly, there was a good correlation between interlaminar fracture toughness and interlaminar shear strength results. However, a negative influence of surface modification on the impact properties of composites was found. Such behavior occurred because of higher structural stability and lower exposure to delamination in multiple layers of the composites reinforced with the modified carbon fibers. It was found that impact energy reached ~150 kJ/m2 for the polyethersulfone-based composites reinforced with initial fibers, while the composites reinforced with modified carbon fibers showed impact energy values of only ~80 kJ/m2. Nevertheless, surface modification of carbon fibers using the thermal oxidation method can be an effective method for improving the performance properties of polyethersulfone-based composite materials. [ABSTRACT FROM AUTHOR]

Published

2024

21. Structurally Invariant Higher-Order Ince-Gaussian Beams and Their Expansions into Hermite-Gaussian or Laguerre-Gaussian Beams.

Author

Abramochkin, Eugeny G., Kotlyar, Victor V., and Kovalev, Alexey A.

Subjects

LAGUERRE-Gaussian beams, OPTICAL communications, SPATIAL light modulators, FREE-space optical technology, DATA transmission systems

Abstract

Paraxial beam modes, which propagate in space and focus without changing their transverse intensity pattern, are of great value for multiplexing transmitted data in optical communications, both in waveguides and in free space. The best-known paraxial modes are the Hermite-Gaussian and Laguerre-Gaussian beams. Here, we derive explicit analytical expressions for Ince-Gaussian (IG) beams for several first values of the indices p = 3, 4, 5, and 6. In total, we obtain expressions for the amplitudes of 24 IG beams. These formulae are written as superpositions of the Laguerre-Gaussian (LG) or Hermite-Gaussian (HG) beams, with the superposition coefficients explicitly depending on the ellipticity parameter. Due to simultaneous representation of the IG modes via the LG and HG modes, it is easy to obtain the IG modes in the limiting cases wherein the ellipticity parameter is zero or approaches infinity. The explicit dependence of the obtained expressions for the IG modes on the ellipticity parameter makes it possible to change the intensity pattern at the beam cross-section by continuously varying the parameter values. For the first time, the intensity distributions of the IG beams are obtained for negative values of the ellipticity parameter. The obtained expressions could facilitate a theoretical analysis of properties of the IG modes and could find practical applications in the numerical simulation or generation of such beams with a liquid-crystal spatial light modulator. [ABSTRACT FROM AUTHOR]

Published

2024

22. Enhancing the Spin Hall Effect of Cylindrically Polarized Beams.

Author

Kovalev, Alexey A., Nalimov, Anton G., and Kotlyar, Victor V.

Subjects

SPIN Hall effect, VECTOR beams, LASER beams, LINEAR polarization, ANGULAR momentum (Mechanics), QUANTUM spin Hall effect

Abstract

Two linked gear wheels in a micromachine can be simultaneously rotated in opposite directions by using a laser beam that has in its section areas the spin angular momentum (SAM) of the opposite sign. However, for instance, a cylindrical vector beam has zero SAM in the focus. We alter a cylindrical vector beam so as to generate areas in its focus where the SAM is of opposite signs. The first alteration is adding to the cylindrical vector beam a linearly polarized beam. Thus, we study superposition of two rotationally symmetric beams: those with cylindrical and linear polarization. We obtain an expression for the SAM and prove two of its properties. The first property is that changing superposition coefficients does not change the shape of the SAM density distribution, whereas the intensity changes. The second property is that maximal SAM density is achieved when both beams in the superposition have the same energy. The second perturbation is adding a spatial carrier frequency. We study the SAM density of a cylindrical vector beam with a spatial carrier frequency. Due to periodic modulation, upon propagation in space, such a beam is split into two beams, having left and right elliptic polarization. Thus, in the beam transverse section, areas with the spin of different signs are separated in space, which is a manifestation of the spin Hall effect. We demonstrate that such light beams can be generated by metasurfaces, with the transmittance depending periodically on one coordinate. [ABSTRACT FROM AUTHOR]

Published

2024

23. The Nitro Group Reshapes the Effects of Pyrido[3,4- g ]quinazoline Derivatives on DYRK/CLK Activity and RNA Splicing in Glioblastoma Cells.

Author

Borisevich, Sophia S., Aksinina, Tatiana E., Ilyina, Margarita G., Shender, Victoria O., Anufrieva, Ksenia S., Arapidi, Georgij P., Antipova, Nadezhda V., Anizon, Fabrice, Esvan, Yannick J., Giraud, Francis, Tatarskiy, Victor V., Moreau, Pascale, Shakhparonov, Mikhail I., Pavlyukov, Marat S., and Shtil, Alexander A.

Subjects

HETEROCYCLIC compounds, RNA, GLIOMAS, TRANSFERASES, DESCRIPTIVE statistics, RESEARCH funding, COMPUTER-assisted molecular modeling

Abstract

Simple Summary: The complex mode of gene expression regulation is a key reason underlying the biological heterogeneity and clinical diversity of malignant gliomas. In particular, high variabilities of gene expression are associated with alternative RNA splicing, a mechanism that generates the transcripts of different structures and functions from the same gene. Protein kinases of the DYRK and CLK families are part of the splicing regulation machinery; therefore, pharmacological targeting of these enzymes in gliomas is therapeutically relevant. We demonstrate that the pyrido[3,4-g]quinazoline scaffold is a source of compounds with differential inhibitory efficacy against individual DYRK and CLK enzymes. Our in silico calculations and omics experiments showed that a single chemical substitution in the scaffold can change the kinase inhibitory profile. This modification yielded the splicing antagonist with a high cytotoxic potency against patient-derived glioma cells. Serine-threonine protein kinases of the DYRK and CLK families regulate a variety of vital cellular functions. In particular, these enzymes phosphorylate proteins involved in pre-mRNA splicing. Targeting splicing with pharmacological DYRK/CLK inhibitors emerged as a promising anticancer strategy. Investigation of the pyrido[3,4-g]quinazoline scaffold led to the discovery of DYRK/CLK binders with differential potency against individual enzyme isoforms. Exploring the structure–activity relationship within this chemotype, we demonstrated that two structurally close compounds, pyrido[3,4-g]quinazoline-2,10-diamine 1 and 10-nitro pyrido[3,4-g]quinazoline-2-amine 2, differentially inhibited DYRK1-4 and CLK1-3 protein kinases in vitro. Unlike compound 1, compound 2 efficiently inhibited DYRK3 and CLK4 isoenzymes at nanomolar concentrations. Quantum chemical calculations, docking and molecular dynamic simulations of complexes of 1 and 2 with DYRK3 and CLK4 identified a dramatic difference in electron donor-acceptor properties critical for preferential interaction of 2 with these targets. Subsequent transcriptome and proteome analyses of patient-derived glioblastoma (GBM) neurospheres treated with 2 revealed that this compound impaired CLK4 interactions with spliceosomal proteins, thereby altering RNA splicing. Importantly, 2 affected the genes that perform critical functions for cancer cells including DNA damage response, p53 signaling and transcription. Altogether, these results provide a mechanistic basis for the therapeutic efficacy of 2 previously demonstrated in in vivo GBM models. [ABSTRACT FROM AUTHOR]

Published

2024

24. Modified Crosstalk between Phytohormones in Arabidopsis Mutants for PEP-Associated Proteins.

Author

Bychkov, Ivan A., Andreeva, Aleksandra A., Vankova, Radomira, Lacek, Jozef, Kudryakova, Natalia V., and Kusnetsov, Victor V.

Subjects

MUTANT proteins, GENE expression, ABSCISIC acid, ARABIDOPSIS, CHLOROPLAST membranes, RNA polymerases, AUXIN, PLANT hormones

Abstract

Plastid-encoded RNA polymerase (PEP) forms a multisubunit complex in operating chloroplasts, where PEP subunits and a sigma factor are tightly associated with 12 additional nuclear-encoded proteins. Mutants with disrupted genes encoding PEP-associated proteins (PAPs) provide unique tools for deciphering mutual relationships among phytohormones. A block of chloroplast biogenesis in Arabidopsis pap mutants specifying highly altered metabolism in white tissues induced dramatic fluctuations in the content of major phytohormones and their metabolic genes, whereas hormone signaling circuits mostly remained functional. Reprogramming of the expression of biosynthetic and metabolic genes contributed to a greatly increased content of salicylic acid (SA) and a concomitant decrease in 1-aminocyclopropane-1-carboxylic acid (ACC) and oxophytodienoic acid (OPDA), precursors of ethylene and jasmonic acid, respectively, in parallel to reduced levels of abscisic acid (ABA). The lack of differences in the free levels of indole-3-acetic acid (IAA) between the pap mutants and wild-type plants was accompanied by fluctuations in the contents of IAA precursors and conjugated forms as well as multilayered changes in the expression of IAA metabolic genes. Along with cytokinin (CK) overproduction, all of these compensatory changes aim to balance plant growth and defense systems to ensure viability under highly modulated conditions. [ABSTRACT FROM AUTHOR]

Published

2024

25. 6-Amino-4-aryl-7-phenyl-3-(phenylimino)-4,7-dihydro-3H-[1,2]dithiolo[3,4-b]pyridine-5-carboxamides: Synthesis, Biological Activity, Quantum Chemical Studies and In Silico Docking Studies.

Author

Dotsenko, Victor V., Bespalov, Alexander V., Sinotsko, Anna E., Temerdashev, Azamat Z., Vasilin, Vladimir K., Varzieva, Ekaterina A., Strelkov, Vladimir D., Aksenov, Nicolai A., and Aksenova, Inna V.

Subjects

*MOLECULAR docking, *X-ray crystallography, *DENSITY functional theory

Abstract

New [1,2]dithiolo[3,4-b]pyridine-5-carboxamides were synthesized through the reaction of dithiomalondianilide (N,N′-diphenyldithiomalondiamide) with 3-aryl-2-cyanoacrylamides or via a three-component reaction involving aromatic aldehydes, cyanoacetamide and dithiomalondianilide in the presence of morpholine. The structure of 6-amino-4-(2,4-dichloro- phenyl)-7-phenyl-3-(phenylimino)-4,7-dihydro-3H-[1,2]dithiolo[3,4-b]pyridine-5-carboxamide was confirmed using X-ray crystallography. To understand the reaction mechanism in detail, density functional theory (DFT) calculations were performed with a Grimme B97-3c composite computational scheme. The results revealed that the rate-limiting step is a cyclization process leading to the closure of the 1,4-dihydropyridine ring, with an activation barrier of 28.8 kcal/mol. Some of the dithiolo[3,4-b]pyridines exhibited moderate herbicide safening effects against 2,4-D. Additionally, ADMET (Absorption, Distribution, Metabolism, Excretion, Toxicity) parameters were calculated and molecular docking studies were performed to identify potential protein targets. [ABSTRACT FROM AUTHOR]

Published

2024

26. Key Proteins of Replication Stress Response and Cell Cycle Control as Cancer Therapy Targets.

Author

Khamidullina, Alvina I., Abramenko, Yaroslav E., Bruter, Alexandra V., and Tatarskiy, Victor V.

Subjects

HEAT shock proteins, CELL cycle, CYCLIN-dependent kinases, CANCER treatment, CHECKPOINT kinase 1, P53 protein, DNA replication

Abstract

Replication stress (RS) is a characteristic state of cancer cells as they tend to exchange precision of replication for fast proliferation and increased genomic instability. To overcome the consequences of improper replication control, malignant cells frequently inactivate parts of their DNA damage response (DDR) pathways (the ATM-CHK2-p53 pathway), while relying on other pathways which help to maintain replication fork stability (ATR-CHK1). This creates a dependency on the remaining DDR pathways, vulnerability to further destabilization of replication and synthetic lethality of DDR inhibitors with common oncogenic alterations such as mutations of TP53, RB1, ATM, amplifications of MYC, CCNE1 and others. The response to RS is normally limited by coordination of cell cycle, transcription and replication. Inhibition of WEE1 and PKMYT1 kinases, which prevent unscheduled mitosis entry, leads to fragility of under-replicated sites. Recent evidence also shows that inhibition of Cyclin-dependent kinases (CDKs), such as CDK4/6, CDK2, CDK8/19 and CDK12/13 can contribute to RS through disruption of DNA repair and replication control. Here, we review the main causes of RS in cancers as well as main therapeutic targets—ATR, CHK1, PARP and their inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

27. Reconstructive Methodology in the Synthesis of 2-Aminopurine.

Author

Neymash, Artyom O., Ulomsky, Evgeny N., Fedotov, Victor V., Aminov, Semen V., Lyapustin, Daniil N., Gorbunov, Evgeny B., Ishimnikov, Vladislav A., Slepukhin, Pavel A., and Rusinov, Vladimir L.

Subjects

X-ray diffraction, GROUP 15 elements, TRANSFORMATION groups, RING formation (Chemistry)

Abstract

A fundamentally new synthetic approach to the synthesis of 2-aminopurine has been developed. It consists in the combination of the creation of a condensed polyazotic heterocyclic tetrazolopyrimidine structure, its transformation into triaminopyrimidine, and its subsequent cyclization into 2-aminopurine. The structure of the obtained compounds was established based on spectral characteristics, and the structure of the intermediate compound 5 was established directly by X-ray diffraction analysis. [ABSTRACT FROM AUTHOR]

Published

2024

28. Structure, Thermal, and Mechanical Behavior of the Polysulfone Solution Impregnated Unidirectional Carbon Fiber Yarns.

Author

Chukov, Dilyus I., Tcherdyntsev, Victor V., Stepashkin, Andrey A., and Zadorozhnyy, Mikhail Y.

Subjects

*YARN, *CARBON fibers, *DYNAMIC mechanical analysis, *COMPRESSION molding, *UNIFORM polymers, *THREE-dimensional printing

Abstract

The paper is devoted to the study of thermal and mechanical behavior and structural features of the polysulfone solution impregnated unidirectional carbon fiber yarns depending on fabrication conditions and appearance for optimum production method of the composites. The effect of producing conditions, such as polysulfone solution concentration, drying and post-heating temperatures, and the residual solvent content on the structure, mechanical, and thermal properties of the carbon fiber-reinforced composites was studied. The polysulfone solution impregnated carbon fiber yarns show relatively high mechanical properties, realizing up to 80% of the carbon fibers' tensile strength, which can be attributed to good wettability and uniform polymer matrix distribution throughout the entire volume of the composites. It was found that the composites impregnated with 40 wt.% of the polysulfone solution showed lower porosity and higher mechanical properties. The results of a dynamic mechanical analysis indicate that residual solvent has a significant effect on the composites' thermal behavior. The composites heated to 350 °C for a 30 min showed higher thermal stability compared to ones dried at 110 °C due to removal of residual solvent during heating. The impregnated carbon fiber yarns can be used for the further producing bulk unidirectional composites by compression molding and the proposed method can be easily transformed to continuous filament production, for example for further use in 3-D printing technology. [ABSTRACT FROM AUTHOR]

Published

2023

29. Microstructural Modification of Cold-Sprayed Ti-Cr 3 C 2 Composite Coating by Laser Remelting.

Author

Shikalov, Vladislav S., Katanaeva, Diana A., Vidyuk, Tomila M., Golyshev, Alexander A., Kosarev, Vladimir F., Kornienko, Elena E., Malikov, Alexander G., and Atuchin, Victor V.

Subjects

COMPOSITE coating, CHROMIUM carbide, TITANIUM carbide, PROTECTIVE coatings, LASERS, METAL spraying, SLIDING wear, TITANIUM powder, TITANIUM alloys

Abstract

Laser processing is an effective post-treatment method for modifying the structure and improving the properties of cold-sprayed coatings. In the present work, the possibility of fabricating a hard and wear-resistant Ti-based cermet coating by cold spray followed by laser remelting was studied. A mixture of titanium and chromium carbide powders in a ratio of 60/40 wt.% was deposited by cold spray onto a titanium alloy substrate, which ensured the formation of a composite coating with a residual chromium carbide content of about 12–13 wt.%. The optimal values of laser beam power (2 kW) and scanning speed (75 mm/s) leading to the qualitative fusion of the coating with the substrate with minimal porosity and absence of defects were revealed. The microstructure and phase composition of as-sprayed and remelted coatings were examined with SEM, EDS and XRD analysis. It was shown that the phase composition of the as-sprayed coating did not change compared to the feedstock mixture, while the remelted coating was transformed into a β-Ti(Cr) solid solution with uniformly distributed nonstoichiometric TiCx particles. Due to the change in microstructure and phase composition, the remelted coating was characterized by an attractive combination of higher microhardness (437 HV0.1) and lower specific wear rate (0.25 × 10−3 mm3/N × m) under dry sliding wear conditions compared to the as-sprayed coating and substrate. Laser remelting of the coating resulted in a change in the dominant wear mechanism from oxidative–abrasive to oxidative–adhesive with delamination. [ABSTRACT FROM AUTHOR]

Published

2023

30. Phytohormones as Regulators of Mitochondrial Gene Expression in Arabidopsis thaliana.

Author

Bychkov, Ivan A., Pojidaeva, Elena S., Doroshenko, Anastasia S., Khripach, Vladimir A., Kudryakova, Natalia V., and Kusnetsov, Victor V.

Subjects

REGULATOR genes, GENE expression, ARABIDOPSIS thaliana, PLANT hormones, PLANT organelles, PLANT growth, AUXIN, ABSCISIC acid

Abstract

The coordination of activities between nuclei and organelles in plant cells involves information exchange, in which phytohormones may play essential roles. Therefore, the dissection of the mechanisms of hormone-related integration between phytohormones and mitochondria is an important and challenging task. Here, we found that inputs from multiple hormones may cause changes in the transcript accumulation of mitochondrial-encoded genes and nuclear genes encoding mitochondrial (mt) proteins. In particular, treatments with exogenous hormones induced changes in the GUS expression in the reporter line possessing a 5′-deletion fragment of the RPOTmp promoter. These changes corresponded in part to the up- or downregulation of RPOTmp in wild-type plants, which affects the transcription of mt-encoded genes, implying that the promoter fragment of the RPOTmp gene is functionally involved in the responses to IAA (indole-3-acetic acid), ACC (1-aminocyclopropane-1-carboxylic acid), and ABA (abscisic acid). Hormone-dependent modulations in the expression of mt-encoded genes can also be mediated through mitochondrial transcription termination factors 15, 17, and 18 of the mTERF family and genes for tetratricopeptide repeat proteins that are coexpressed with mTERF genes, in addition to SWIB5 encoding a mitochondrial SWI/SNF (nucleosome remodeling) complex B protein. These genes specifically respond to hormone treatment, displaying both negative and positive regulation in a context-dependent manner. According to bioinformatic resources, their promoter region possesses putative cis-acting elements involved in responses to phytohormones. Alternatively, the hormone-related transcriptional activity of these genes may be modulated indirectly, which is especially relevant for brassinosteroids (BS). In general, the results of this study indicate that hormones are essential mediators that are able to cause alterations in the transcript accumulation of mt-related nuclear genes, which, in turn, trigger the expression of mt genes. [ABSTRACT FROM AUTHOR]

Published

2023

31. Triphenylphosphine Derivatives of Allylbenzenes Express Antitumor and Adjuvant Activity When Solubilized with Cyclodextrin-Based Formulations.

Author

Zlotnikov, Igor D., Krylov, Sergey S., Semenova, Marina N., Semenov, Victor V., and Kudryashova, Elena V.

Subjects

PACLITAXEL, ANTINEOPLASTIC agents, TRIPHENYLPHOSPHINE, ERYTHROCYTES, MITOCHONDRIAL membranes, VEGETABLE oils, PLANT growth promoting substances

Abstract

Allylbenzenes (apiol, dillapiol, myristicin and allyltetramethoxybenzene) are individual components of plant essential oils that demonstrate antitumor activity and can enhance the antitumor activity of cytotoxic drugs, such as paclitaxel, doxorubicin, cisplatin, etc. Triphenylphosphine (PPh3) derivatives of allylbenzenes are two to three orders of magnitude more potent than original allylbenzenes in terms of IC50. The inhibition of efflux pumps has been reported for allylbenzenes, and the PPh3 moiety is deemed to be responsible for preferential mitochondrial accumulation and the depolarization of mitochondrial membranes. However, due to poor solubility, the practical use of these substances has never been an option. Here, we show that this problem can be solved by using a complex formation with cyclodextrin (CD-based molecular containers) and polyanionic heparin, stabilizing the positive charge of the PPh3 cation. Such containers can solubilize both allylbenzenes and their PPh3 derivatives up to 0.4 mM concentration. Furthermore, we have observed that solubilized PPh3 derivatives indeed work as adjuvants, increasing the antitumor activity of paclitaxel against adenocarcinomic human alveolar basal epithelial cells (A549) by an order of magnitude (in terms of IC50) in addition to being quite powerful cytostatics themselves (IC50 in the range 1–10 µM). Even more importantly, CD-solubilized PPh3 derivatives show pronounced selectivity, being highly toxic for the A549 tumor cell line and minimally toxic for HEK293T non-tumor cells, red blood cells and sea urchin embryos. Indeed, in many cancers, the mitochondrial membrane is more prone to depolarization compared to normal cells, which probably explains the observed selectivity of our compounds, since PPh3 derivatives are known to act as mitochondria-targeting agents. According to the MTT test, 100 µM solution of PPh3 derivatives of allylbenzenes causes the death of up to 85% of A549 cancer cells, while for HEK293T non-cancer cells, only 15–20% of the cells died. The hemolytic index of the studied substances did not exceed 1%, and the thrombogenicity index was < 1.5%. Thus, this study outlines the experimental foundation for developing combined cytostatic medications, where effectiveness and selectivity are achieved through decreased concentration of the primary ingredient and the inclusion of adjuvants, which are safe or practically harmless substances. [ABSTRACT FROM AUTHOR]

Published

2023

32. Enhanced Yb:YAG Active Mirrors for High Power Laser Amplifiers.

Author

Petrov, Vladimir A., Kuptsov, Gleb V., Kuptsova, Alyona O., Atuchin, Victor V., Stroganova, Elena V., and Petrov, Victor V.

Subjects

HIGH power lasers, POWER amplifiers, WAVEFRONTS (Optics), WAVEFRONT sensors, SEMICONDUCTOR lasers, MIRRORS, TEMPERATURE distribution, CONCENTRATION gradient

Abstract

The work is aimed at the investigation of the influence of nonlinear active ions concentration profiles in Yb:YAG laser elements on temperature distribution and wavefront distortions during amplification using sub-kilowatt level diode pumping. A mathematical model is presented for the theoretical study of the amplification process in crystals with cubic crystal system. A detailed comparison of Yb:YAG active elements with the same thickness and absorbed pumping power, but with various concentration profiles of Yb3+, ions is carried out. It is shown that the use of active elements with an increasing dopant concentration in the pump beam direction allows one to optimize the temperature profile inside the active element and, thus, reduce the thermal-induced wavefront distortions of the amplified radiation. Modeling is carried out for the experimentally grown crystal with linear concentration gradient profile. It is shown that the linear doping profile with a gradient of 0.65 at.%/mm allows increasing the small-signal gain up to 10% and decreasing the thermal-induced wavefront distortions by ~15%. [ABSTRACT FROM AUTHOR]

Published

2023

33. Nanocomposite Co 3 O 4 -ZnO Thin Films for Photoconductivity Sensors.

Author

Petrov, Victor V., Sysoev, Victor V., Ignatieva, Irina O., Gulyaeva, Irina A., Volkova, Maria G., Ivanishcheva, Alexandra P., Khubezhov, Soslan A., Varzarev, Yuri N., and Bayan, Ekaterina M.

Subjects

*THIN films, *ZINC oxide films, *PHOTOCONDUCTIVITY, *X-ray photoelectron spectroscopy, *CHARGE carrier mobility, *DETECTORS, *ZINC oxide

Abstract

Thin nanocomposite films based on zinc oxide (ZnO) added with cobalt oxide (Co3O4) were synthesized by solid-phase pyrolysis. According to XRD, the films consist of a ZnO wurtzite phase and a cubic structure of Co3O4 spinel. The crystallite sizes in the films increased from 18 nm to 24 nm with growing annealing temperature and Co3O4 concentration. Optical and X-ray photoelectron spectroscopy data revealed that enhancing the Co3O4 concentration leads to a change in the optical absorption spectrum and the appearance of allowed transitions in the material. Electrophysical measurements showed that Co3O4-ZnO films have a resistivity up to 3 × 104 Ohm∙cm and a semiconductor conductivity close to intrinsic. With advancing the Co3O4 concentration, the mobility of the charge carriers was found to increase by almost four times. The photosensors based on the 10Co-90Zn film exhibited a maximum normalized photoresponse when exposed to radiation with wavelengths of 400 nm and 660 nm. It was found that the same film has a minimum response time of ca. 26.2 ms upon exposure to radiation of 660 nm wavelength. The photosensors based on the 3Co-97Zn film have a minimum response time of ca. 58.3 ms versus the radiation of 400 nm wavelength. Thus, the Co3O4 content was found to be an effective impurity to tune the photosensitivity of radiation sensors based on Co3O4-ZnO films in the wavelength range of 400–660 nm. [ABSTRACT FROM AUTHOR]

Published

2023

34. The Application of Combined Visible and Ultraviolet Irradiation to Improve the Functional Characteristics of Gas Sensors Based on ZnO/SnO 2 and ZnO/Au Nanorods.

Author

Ivanishcheva, Alexandra P., Sysoev, Victor V., Abdullin, Khabibulla A., Nesterenko, Andrey V., Khubezhov, Soslan A., and Petrov, Victor V.

Subjects

GAS detectors, STANNIC oxide, NANORODS, X-ray photoelectron spectroscopy, SCANNING electron microscopy

Abstract

Arrays of zinc oxide (ZnO) nanorods were synthesized over quartz substrates by the hydrothermal method. These nanorods were grown in a predominantly vertical orientation with lengths of 500–800 nm and an average cross-sectional size of 40–80 nm. Gold, with average sizes of 9 ± 1 nm and 4 ± 0.5 nm, and tin nanoclusters, with average sizes of 30 ± 5 nm and 15 ± 3 nm, were formed on top of the ZnO nanorods. Annealing was carried out at 300 °C for 2 h to form ZnO/SnO2 and ZnO/Au nanorods. The resulting nanorod-arrayed films were comprehensively studied using X-ray diffraction (XRD), scanning electron microscopy (SEM), energy-dispersive X-ray spectrometry (EDS) and X-ray photoelectron spectroscopy (XPS). To fabricate resistive sensor elements, the films were supplied with V/Ni contact metallization on top of the nanorods. The gas sensor performance of the prepared films was evaluated at various temperatures in order to select 200 °C as the optimum one which enabled a selective detection of NO2. Adding UV-viz irradiation via a light-emitting diode, λ = 400 nm, allowed us to reduce the working temperature to 50 °C and to advance the detection limit of NO2 to 0.5 ppm. The minimum response time of the samples was 92 s, which is 9 times faster than in studies without exposure to UV-viz radiation. [ABSTRACT FROM AUTHOR]

Published

2023

35. Vector Beams with Only Transverse Intensity at Focus.

Author

Stafeev, Sergey S., Kazakov, Nikita N., Zaitsev, Vladislav D., Poletayev, Sergey D., and Kotlyar, Victor V.

Subjects

VECTOR beams, ANGULAR momentum (Mechanics), ELECTRIC fields

Abstract

In this work, the tight focusing of vector beams with azimuthal polarization and beams with a V-line of polarization singularity (sector azimuthal polarization) was simulated numerically using the Richards–Wolf formulas. It was demonstrated that in a tight focus for these beams, there is no longitudinal component of the electric field. Previously, a similar effect was demonstrated for azimuthally polarized light only. The longitudinal component of the spin angular momentum for these beams was calculated, and the possibility of creating sector azimuthally polarized beams (beams with V-line singularities) using vector waveplates was demonstrated. [ABSTRACT FROM AUTHOR]

Published

2023

36. Unveiling Insights: Harnessing the Power of the Most-Frequent-Value Method for Sensor Data Analysis.

Author

Golovko, Victor V., Kamaev, Oleg, and Sun, Jiansheng

Subjects

*DATA analysis, *BACKGROUND radiation, *GAMMA rays, *DARK matter, *DETECTORS, *RADIATION exposure

Abstract

The paper explores the application of Steiner's most-frequent-value (MFV) statistical method in sensor data analysis. The MFV is introduced as a powerful tool to identify the most-common value in a dataset, even when data points are scattered, unlike traditional mode calculations. Furthermore, the paper underscores the MFV method's versatility in estimating environmental gamma background blue (the natural level of gamma radiation present in the environment, typically originating from natural sources such as rocks, soil, and cosmic rays), making it useful in scenarios where traditional statistical methods are challenging. It presents the MFV approach as a reliable technique for characterizing ambient radiation levels around large-scale experiments, such as the DEAP-3600 dark matter detector. Using the MFV alongside passive sensors such as thermoluminescent detectors and employing a bootstrapping approach, this study showcases its effectiveness in evaluating background radiation and its aptness for estimating confidence intervals. In summary, this paper underscores the importance of the MFV and bootstrapping as valuable statistical tools in various scientific fields that involve the analysis of sensor data. These tools help in estimating the most-common values and make data analysis easier, especially in complex situations, where we need to be reasonably confident about our estimated ranges. Our calculations based on MFV statistics and bootstrapping indicate that the ambient radiation level in Cube Hall at SNOLAB is 35.19 μ Gy for 1342 h of exposure, with an uncertainty range of + 3.41 to − 3.59 μ Gy, corresponding to a 68.27% confidence level. In the vicinity of the DEAP-3600 water shielding, the ambient radiation level is approximately 34.80 μ Gy, with an uncertainty range of + 3.58 to − 3.48 μ Gy, also at a 68.27% confidence level. These findings offer crucial guidance for experimental design at SNOLAB, especially in the context of dark matter research. [ABSTRACT FROM AUTHOR]

Published

2023

37. Sn-Doped Hematite Films as Photoanodes for Photoelectrochemical Alcohol Oxidation.

Author

Grinberg, Vitali A., Emets, Victor V., Modestov, Alexander D., Averin, Aleksey A., Shiryaev, Andrei A., Botryakova, Inna G., and Shapagin, Aleksey V.

Subjects

*ALCOHOL oxidation, *HEMATITE, *SEMICONDUCTOR thin films, *OXIDATION of water, *SURFACE recombination, *ETHYLENE glycol

Abstract

Here, the modification of semiconductor thin film hematite photoanode by doping with Sn ions is reported. Undoped and Sn-doped hematite films are fabricated by the electrochemical deposition of FeOOH from aqueous alkaline electrolyte, followed by calcination in air. The photoanodes were tested in photoelectrocatalytic oxidation of water, methanol, ethylene glycol, and glycerol. It is shown that modification by tin dramatically increased the activity of hematite in the photoelectrochemical oxidation of alcohols upon visible light irradiation. The photoelectrocatalytic activity of Sn-modified hematite increased in the sequence of: H2O < MeOH < C2H2(OH)2 < C3H5(OH)3. The quantum yield of photocurrent in the oxidation of alcohols reached 10%. The relatively low photocurrent yield was ascribed to the recombination of photoexcited holes within the hematite layer and on surface states located at the hematite/electrolyte interface. Intensity-modulated photocurrent spectroscopy (IMPS) was used to quantify the recombination losses of holes via surface states. The IMPS results suggested that the hole acceptor in the electrolyte (alcohol) influences photocurrent both by changing the charge transfer rate in the photoelectrooxidation process and by the efficient suppression of the surface recombination of generated holes. Thin-film Sn-modified hematite photoanodes are promising instruments for the photoelectrochemical degradation of organic pollutants. [ABSTRACT FROM AUTHOR]

Published

2023

38. Spin Hall Effect of Two-Index Paraxial Vector Propagation-Invariant Beams.

Author

Kotlyar, Victor V. and Kovalev, Alexey A.

Subjects

SPIN Hall effect, VECTOR beams, BESSEL beams, ANGULAR momentum (Mechanics), LAGUERRE-Gaussian beams

Abstract

We investigate a simple paraxial vector beam, which is a coaxial superposition of two single-ringed Laguerre–Gaussian (LG) beams, linearly polarized along the horizontal axis, with topological charges (TC) n and −n, and of two LG beams, linearly polarized along the vertical axis, with the TCs m and −m. In the initial plane, such a vector beam has zero spin angular momentum (SAM). Upon propagation in free space, such a propagation-invariant beam has still zero SAM at several distances from the waist plane (initial plane). However, we show that at all other distances, the SAM becomes nonzero. The intensity distribution in the cross-section of such a beam has 2m (if m > n) lobes, the maxima of which reside on a circle of a certain radius. The SAM distribution has also several lobes, from 2m till 2(m + n), the centers of which reside on a circle with a radius smaller than that of the maximal-intensity circle. The SAM sign alternates differently: one lobe has a positive SAM, while two neighbor lobes on the circle have a negative SAM, or two neighbor pairs of lobes can have a positive and negative SAM. When passing through a plane with zero SAM, positive and negative SAM lobes are swapped. The maximal SAM value is achieved at a distance smaller than or equal to the Rayleigh distance. [ABSTRACT FROM AUTHOR]

Published

2023

39. Vector Light Field Immediately behind an Ideal Spherical Lens: Spin–Orbital Conversion, Additional Optical Vortices, Spin Hall Effect, Magnetization.

Author

Kotlyar, Victor V., Kovalev, Alexey A., Stafeev, Sergey S., Kozlova, Elena S., and Telegin, Alexey M.

Subjects

SPIN Hall effect, VECTOR fields, SPHEROMAKS, HALL effect, MAGNETIZATION, OPTICAL vortices, CIRCULAR polarization

Abstract

The Richards–Wolf formulas not only adequately describe a light field at a tight focus, but also make it possible to describe a light field immediately behind an ideal spherical lens, that is, on a converging spherical wave front. Knowing all projections of light field strength vectors behind the lens, the longitudinal components of spin and orbital angular momenta (SAM and OAM) can be found. In this case, the longitudinal projection of the SAM immediately behind the lens either remains zero or decreases. This means that the Spin–Orbital Conversion (SOC) effect where part of the "spin goes into orbit" takes place immediately behind the lens. And the sum of longitudinal projections of SAM and OAM is preserved. As for the spin Hall effect, it does not form right behind the lens, but appears as focusing occurs. That is, there is no Hall effect immediately behind the lens, but it is maximum at the focus. This happens because two optical vortices with topological charges (TCs) 2 and −2 and with spins of different signs (with left and right circular polarization) are formed right behind the lens. However, the total spin is zero since amplitudes of these vortices are the same. The amplitude of optical vortices becomes different while focusing and at the focus itself, and therefore regions with spins of different signs (Hall effect) appear. A general form of initial light fields which longitudinal field component is zero at the focus was found. In this case, the SAM vector can only have a longitudinal component that is nonzero. The SAM vector elongated only along the optical axis at the focus is used in magnetization task. [ABSTRACT FROM AUTHOR]

Published

2023

40. The Endophytic Entomopathogenic Fungus Beauveria bassiana Alleviates Adverse Effects of Salt Stress in Potato Plants.

Author

Tomilova, Oksana G., Kryukova, Natalia A., Efimova, Marina V., Kolomeichuk, Liliya V., Kovtun, Irina S., and Glupov, Victor V.

Subjects

BEAUVERIA bassiana, ENDOPHYTIC fungi, ENTOMOPATHOGENIC fungi, SOIL salinity, CROPS

Abstract

The considerable decrease in crop productivity associated with the expansion of saline soils is an acute problem in agriculture. Endophytic fungi positively affect plant fitness under salinity conditions. The effects of potato inoculation with the conidia of the Beauveria bassiana strain Sar-31 on growth (the weight of fresh and dry biomass, shoot and root length, numbers of stolons and leaves, and the leaf surface) and physiological indices (the concentration of pigments, free proline and malondialdehyde, and antioxidant enzymes' activity) were evaluated under moderate chloride salinity (100 mM). The results indicated that the plant's association with the fungus mitigated the negative impact of salinity probably because of the activation of antioxidant enzymes and accumulation of free proline in potato tissues. Moreover, under the influence of B. bassiana Sar-31, the number of stolons significantly increased, which is one of the main characteristics of potato as an agricultural crop. Thus, Sar-31 may be a promising candidate for further investigation of its ability to stimulate growth and increase the stress tolerance of potato plants. [ABSTRACT FROM AUTHOR]

Published

2023

41. The Mechanism of the Formation of the Spin Hall Effect in a Sharp Focus.

Author

Kotlyar, Victor V., Stafeev, Sergey S., Telegin, Alexey M., and Kozlova, Elena S.

Subjects

SPIN Hall effect, OPTICAL vortices, FOCAL planes, LINEAR polarization, CIRCULAR polarization, VECTOR beams

Abstract

We have shown how the spin Hall effect is formed in a tight focus for two light fields with initial linear polarization. We have demonstrated that an even number of local subwavelength regions appear in which the sign of the longitudinal projection of the spin angular momentum (the third Stokes component) alternates. When an optical vortex with topological charge n and linear polarization passes through an ideal spherical lens, additional optical vortices with topological charges n + 2, n − 2, n + 1, and n − 1 with different amplitudes are formed in the converged beam. The first two of these vortices have left and right circular polarizations and the last two vortices have linear polarization. Since circularly polarized vortices have different amplitudes, their superposition will have elliptical polarization. The sign of this elliptical polarization (left or right) will change over the beam cross section with the change in the sign of the difference in the amplitudes of optical vortices with circular polarization. We also have shown that optical vortices with topological charges n + 2, n − 2 propagate in the opposite direction near the focal plane, and together with optical vortices with charges n + 1, n − 1, they form an azimuthal energy flow at the focus. [ABSTRACT FROM AUTHOR]

Published

2023

42. The Generation of High-Energy Electron–Positron Pairs during the Breit–Wheeler Resonant Process in a Strong Field of an X-ray Electromagnetic Wave.

Author

Roshchupkin, Sergei P., Serov, Vitalii D., and Dubov, Victor V.

Subjects

ELECTROMAGNETIC fields, ELECTROMAGNETIC waves, POSITRONIUM, LASER fusion, POSITRON beams, NEUTRON stars

Abstract

The Breit–Wheeler resonant process was theoretically studied in a strong X-ray electromagnetic wave field under conditions when the energy of one of the initial high-energy gamma quanta passes into the energy of a positron or electron. These conditions were realized when the energy of a high-energy gamma quantum significantly exceeded the characteristic Breit–Wheeler energy, which was determined using the parameters of the electromagnetic wave and the initial setup. Analytical formulas for the resonant differential cross-section were obtained. It is shown that the resonant differential cross-section significantly depends on the ratio between the energies of the initial gamma quanta and the characteristic Breit–Wheeler energy. With a decrease in the characteristic Breit–Wheeler energy, the resonant cross-section increases sharply and may exceed the corresponding non-resonant cross-section by several orders of magnitude. The results make it possible to obtain narrow beams of ultrarelativistic positrons (electrons) with energies of the order ∼ 10 2 GeV and could also be used to explain high-energy fluxes of positrons (electrons) near neutron stars, as well as to simulate QED processes in laser fusion. [ABSTRACT FROM AUTHOR]

Published

2023

43. Application of Pluronics for Enhancing Aqueous Solubility of Lipophilic Microtubule Destabilizing Compounds on the Sea Urchin Embryo Model.

Author

Semenova, Marina N., Melik-Nubarov, Nikolay S., and Semenov, Victor V.

Subjects

SEA urchins, MICROTUBULES, GLYCOSAMINOGLYCANS, EMBRYOS, CRITICAL micelle concentration, CHALCONE, SOLUBILITY, TUBULINS, DIMETHYL sulfoxide

Abstract

In screening, the dilution of DMSO stock solution of a lipophilic molecule with an assay medium often causes compound precipitation. To overcome the issue, the application of Pluronics as cosolvents was examined using a phenotypic sea urchin embryo assay that allows for the quick and facile evaluation of the antiproliferative effect together with systemic toxicity. Maximum tolerated concentration values for Pluronics L121, P123, and F127 were 1.4 μM, 8.6 μM, and 39.7 μM, respectively, and correlated directly with their hydrophilicity. Pluronics L121 and P123 suppressed cleavage and blastomeres retained the round shape, unlike hydrophilic Pluronic F127, which induced fertilization envelope creasing and embryo deformation that could be associated with the interaction of hydrophilic PEO units with mucopolysaccharides at the surface of sea urchin embryos. The toxicity of P123, but not of L121 and F127, was temperature-dependent and markedly increased at lower temperatures. CMC values obtained at different temperatures confirmed that the toxic effect of P123 was associated with both unimers and micelles, whereas F127 toxicity was related mainly to micelles. Evaluation using phenotypic sea urchin embryo assay revealed that potent microtubule destabilizers, namely albendazole, diarylisoxazole, and two chalcones, retained antimitotic activity after the dilution of their DMSO or 2-pyrrolidone stock solutions with 1.25% w/v Pluronic P123 or 5% w/v Pluronic F127. It was suggested that Pluronic P123 and Pluronic F127 could be used as cosolvents to improve the solubility of lipophilic molecules in aqueous medium. [ABSTRACT FROM AUTHOR]

Published

2023

44. The Synthesis, Structure, and Luminescent Properties of TmMgB 5 O 10 Crystals.

Author

Volkova, Elena A., Maltsev, Victor V., Antipin, Alexander M., Deyneko, Dina V., Nikiforov, Ivan V., Spassky, Dmitry A., Marchenko, Ekaterina I., Mitina, Diana D., Kosorukov, Vladimir L., Yapaskurt, Vasiliy O., Naprasnikov, Daniil A., and Koporulina, Elizaveta V.

Subjects

*CRYSTALS, *CRYSTAL defects, *DIFFERENTIAL scanning calorimetry, *CRYSTAL structure, *X-ray powder diffraction, *ELECTRONIC structure, *BAND gaps

Abstract

TmMgB5O10 spontaneous crystals were synthesized via the flux-growth technique from a K2Mo3O10-based solvent. The crystal structure of the compound was solved and refined within the space group P21/n. The first principles calculations of the electronic structure reveal that TmMg-pentaborate with an ideal not defected crystal structure is an insulator with an indirect energy band gap of approximately 6.37 eV. Differential scanning calorimetry measurements and powder X-ray diffraction studies of heat-treated solids show that TmMgB5O10 is an incongruent melting compound. A characteristic band of the Tm3+ cation corresponding to the 3H6 → 1D2 transition is observed in the photoluminescence excitation spectra of TmMg-borate. The as-obtained crystals exhibit intense blue emission with the emission peaks centered at 455, 479, 667, and 753 nm. The most intensive band corresponds to the 1D2 → 3F4 transition. TmMgB5O10 solids demonstrate the thermal stability of photoluminescence. [ABSTRACT FROM AUTHOR]

Published

2023

45. Photoelectrocatalytic Activity of ZnO-Modified Hematite Films in the Reaction of Alcohol Degradation.

Author

Grinberg, Vitali A., Emets, Victor V., Mayorova, Natalia A., Averin, Aleksey A., and Shiryaev, Andrei A.

Subjects

*ZINC oxide, *ALCOHOL, *ELECTRON-hole recombination, *HEMATITE, *CHARGE transfer, *VISIBLE spectra, *RHODAMINE B

Abstract

Thin-film nanocrystalline hematite electrodes were fabricated by electrochemical deposition and loaded with electrodeposited zinc oxide in various amounts. Under visible light illumination, these electrodes demonstrate high activity in the photoelectrochemical degradation of methanol, ethylene glycol and, in particular, glycerol. Results of intensity-modulated photocurrent spectroscopy show that the photoelectrocatalysis efficiency is explained by the suppression of the electron–hole pair recombination and an increase in the rate of photo-induced charge transfer. Thus, zinc oxide can be considered an effective modifying additive for hematite photoanodes. [ABSTRACT FROM AUTHOR]

Published

2023

46. Nanoparticles Carrying Conserved Regions of Influenza A Hemagglutinin, Nucleoprotein, and M2 Protein Elicit a Strong Humoral and T Cell Immune Response and Protect Animals from Infection.

Author

Zykova, Anna A., Blokhina, Elena A., Stepanova, Liudmila A., Shuklina, Marina A., Ozhereleva, Olga O., Tsybalova, Liudmila M., Kuprianov, Victor V., and Ravin, Nikolai V.

Subjects

T cells, IMMUNE response, IMMUNOGLOBULINS, CHIMERIC proteins, HEMAGGLUTININ, INFLUENZA, PEPTIDES

Abstract

Current influenza vaccines are mainly strain-specific and have limited efficacy in preventing new influenza A strains. Efficient control of infection can potentially be achieved through the development of broad-spectrum vaccines based on conserved antigens. A combination of several such antigens, including the conserved region of the second subunit of the hemagglutinin (HA2), the extracellular domain of the M2 protein (M2e), and epitopes of nucleoprotein (NP), which together can elicit an antibody- and cell-mediated immune response, would be preferred for vaccine development. In this study, we obtained recombinant virus-like particles formed by an artificial self-assembling peptide (SAP) carrying two epitopes from NP, tandem copies of M2e and HA2 peptides, along with a T helper Pan DR-binding epitope (PADRE). Fusion proteins expressed in Escherichia coli self-assembled in vitro into spherical particles with a size of 15–35 nm. Immunization of mice with these particles induced strong humoral immune response against M2e and the entire virus, and lead to the formation of cytokine-secreting antigen-specific CD4+ and CD8+ effector memory T cells. Immunization provided high protection of mice against the lethal challenge with the influenza A virus. Our results show that SAP-based nanoparticles carrying conserved peptides from M2, HA, and NP proteins of the influenza A virus, as well as T helper epitope PADRE, can be used for the development of universal flu vaccines. [ABSTRACT FROM AUTHOR]

Published

2023

47. Comparison of Two Bacterial Characterization Techniques for the Genomic Analysis of River Microbiomes.

Author

Bonnelly, Roberto, Calderon, Victor V., Ortiz, Irene, Ovando, Argeny, Pinales, Confesora, Lara, Willy, Mateo-Perez, Santo E., Cardenas-Alegria, Oscar, Ramos, Rommel T., Rodríguez-Rodríguez, Yaset, Martín, Luis O. Maroto, and Franco, Edian F.

Subjects

*BACTERIAL genomes, *DNA sequencing, *MATRIX-assisted laser desorption-ionization, *BIOINFORMATICS, *MICROORGANISMS

Abstract

This study compares the feasibility of matrix-assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometry with whole genome sequencing (WGS) for identifying bacteria in river surface water samples. We collected samples from four rivers in the Dominican Republic and used both techniques to characterize bacterial profiles. MALDI-TOF demonstrated high precision, with 86.2% similarity to WGS results, except for a few discordant cases due to database limitations. MALDI-TOF provided cost-effective and rapid identification, making it a promising alternative to WGS in resource-constrained regions. In particular, good effectiveness of MALDI-TOF in identifying bacteria with a high probability of being resistant to antibiotics was observed, which allows this technology to be used in the monitoring processes of this type of microorganism for their rapid, accurate, and low-cost identification. We found this technology to be advantageous for environmental bacterial profiling, with potential applications in understanding waterborne pathogenic bacteria. Our findings underline the relevance of MALDI-TOF in microbiology and its potential to expand its capabilities in bacterial identification and protein profiling. [ABSTRACT FROM AUTHOR]

Published

2023

48. 6,7-Dihydroxy-5,8-dimethoxy-2 H -chromen-2-one.

Author

Adaeva, Olga I., Demchuk, Dmitry V., and Semenov, Victor V.

Subjects

COUMARINS, DILL, PARSLEY, SEEDS

Abstract

This article presents a novel approach for synthesizing a new 5,8-dimethoxy derivative of esculetin via the selective cleavage of the methylene bridge in sabandin—naturally occurring and easily synthetically accessible methoxylated coumarin. A high selectivity is achieved by using acetoxylation of methylenedioxy group with lead tetraacetate. Natural coumarin sabandin as a starting compound was prepared in a few simple steps from 5-allyl-4,7-dimethoxybenzo[d][1,3]dioxole (apiol), which is readily available from parsley and dill seed extracts. The developed method enables an efficient and straightforward synthesis of a new derivative of esculetin with potential medicinal and therapeutic applications. [ABSTRACT FROM AUTHOR]

Published

2023

49. Influence of Synthesis Conditions on the Crystal, Local Atomic, Electronic Structure, and Catalytic Properties of (Pr 1− x Yb x) 2 Zr 2 O 7 (0 ≤ x ≤ 1) Powders.

Author

Popov, Victor V., Markova, Ekaterina B., Zubavichus, Yan V., Menushenkov, Alexey P., Yastrebtsev, Alexey A., Gaynanov, Bulat R., Chernysheva, Olga V., Ivanov, Andrei A., Rudakov, Sergey G., Berdnikova, Maria M., Pisarev, Alexander A., Kulikova, Elizaveta S., Kolyshkin, Nickolay A., Khramov, Evgeny V., Khrustalev, Victor N., Shchetinin, Igor V., Tsarenko, Nadezhda A., Ognevskaya, Natalia V., and Seregina, Olga N.

Subjects

YTTERBIUM, ELECTRONIC structure, CATALYTIC cracking, CATALYTIC activity, CHEMICAL bond lengths, POWDERS, CRYSTALS, CALCINATION (Heat treatment)

Abstract

The influence of Yb3+ cations substitution for Pr3+ on the structure and catalytic activity of (Pr1−xYbx)2Zr2O7 powders synthesized via coprecipitation followed by calcination is studied using a combination of long- (s-XRD), medium- (Raman, FT-IR, and SEM-EDS) and short-range (XAFS) sensitive methods, as well as adsorption and catalytic techniques. It is established that chemical composition and calcination temperature are the two major factors that govern the phase composition, crystallographic, and local-structure parameters of these polycrystalline materials. The crystallographic and local-structure parameters of (Pr1−xYbx)2Zr2O7 samples prepared at 1400 °C/3 h demonstrate a tight correlation with their catalytic activity towards propane cracking. The progressive replacement of Pr3+ with Yb3+ cations gives rise to an increase in the catalytic activity. A mechanism of the catalytic cracking of propane is proposed, which considers the geometrical match between the metal–oxygen (Pr–O, Yb–O, and Zr–O) bond lengths within the active sites and the size of adsorbed propane molecule to be the decisive factor governing the reaction route. [ABSTRACT FROM AUTHOR]

Published

2023

50. Radziszewski-Type Oxidation of 3,5-di(α-cyanostyryl)-1,2,4-thiadiazoles

Author

Polina G. Dahno, Arina G. Levchenko, and Victor V. Dotsenko

Published

2022