Your search keyword '"Elena N"' showing total 1,584 results

1. Modern scientific and practical approaches to the production of substrates from semiconductor compounds А3В5. Review

Author

Elena N. Abramova, Roman Yu. Kozlov, Anatoliy I. Khokhlov, Yuriy V. Syrov, and Yuriy N. Parkhomenko

Subjects

semiconductor plates, а3в5 materials, machining, polishing, chemical mechanical polishing, surface passivation, Chemistry, QD1-999

Abstract

Modern electronic and optical engineering uses А3В5 single-crystal semiconductor materials (GaAs, GaSb, InAs, InSb, and InP) as substrates for epitaxial growth. These materials are obtained in the form of massive single-crystal ingots. Therefore, technologies for processing of these A3B5 wafers are developed to produce the substrates for epitaxial growth. The miniaturization of modern systems and devices demands the high quality of the substrates surface. One of the main criteria is a low surface roughness (Ra) (of about 0.5 nm). To meet this requirement, it is necessary to elaborate the existing methods of surface treatment. The review analyses the current approaches to the treatment of the surface of semiconductor wafers of А3В5 single-crystal materials. It considers the specifics of wafers machining followed by their polishing. The article also presents an analysis of the polishing methods. It reveals that at the moment the chemical-mechanical polishing of А3В5 wafers is the most commonly used method. The review presents the main parameters of this process and systematizes the existing theoretical approaches. The analysis determined the key tendencies in the development of chemical-mechanical polishing of semiconductor А3В5 wafers aimed at increasing the quality of wafers. The article also analyses the latest studies regarding the methods of chemical polishing as an alternative to chemical-mechanical polishing. The next section focuses on surface passivation methods used upon obtaining wafers with a low roughness. Passivation is performed to reduce the reactivity of the surface and stabilize surface states of wafers. A classification of passivation methods is suggested based on the obtained chemical composition of the surface, when the passivation layers are created using oxidation, sulfidizing, or nitriding. Another classification is based on the method of creating passivating coatings and includes wet chemical methods and physico-chemical methods

Published

2024

2. Exploring the Effect of Virtual Reality on Learning in General Chemistry Students with Low Visual-Spatial Skills

Author

Elena N. Laricheva and Armen Ilikchyan

Abstract

Studies have demonstrated that visual-spatial skills correlate with student performance and success in science, technology, engineering, and math (STEM). The ability to reason with spatial information is essential for conceptual subjects like chemistry, a deep understanding of which requires dealing with the invisible world of atoms and molecules and linking microscopic properties to macroscopic observables. The link between spatial ability and chemistry achievement is well-studied and documented. The extent to which various teaching tools can help students visualize abstract physicochemical concepts is an active area of research. Virtual reality (VR) can leverage the proximity effect and create immersive learning experiences for students struggling with spatial imagery. For this reason, many VR resources have been developed to teach chemistry, yet the number of studies exploring the potential of VR to enhance spatial ability and chemistry achievement has so far been limited. Here, we report on an exploratory study conducted at a large public institution to evaluate the effect of virtual reality on learning in chemistry students with low visual-spatial skills. Spatial ability was assessed using a visual-spatial pretest. Those students who failed the test were randomized into the VR intervention and control groups. While no statistically significant difference in class performance between these two groups was observed, our data showed some improvement in the median scores in the VR intervention group compared to the control. Future studies enrolling a higher number of participants would help to make more definitive conclusions about the effect of VR on students with low visual-spatial skills.

Published

2023

3. Influence of the Structure of Hydrothermal-Synthesized TiO2 Nanowires Formed by Annealing on the Photocatalytic Reduction of CO2 in H2O Vapor

Author

Andrey M. Tarasov, Larisa I. Sorokina, Daria A. Dronova, Olga Volovlikova, Alexey Yu. Trifonov, Sergey S. Itskov, Aleksey V. Tregubov, Elena N. Shabaeva, Ekaterina S. Zhurina, Sergey V. Dubkov, Dmitry V. Kozlov, and Dmitry Gromov

Subjects

hydrothermal synthesis, TiO2, photocatalysis, CO2 photoreduction, Chemistry, QD1-999

Abstract

The present study investigates the photocatalytic properties of hydrothermally synthesized TiO2 nanowires (NWs) for CO2 reduction in H2O vapor. It has been demonstrated that TiO2 NWs, thermally treated at 500–700 °C, demonstrate an almost tenfold higher yield of products compared to the known commercial powder TiO2 P25. It has been found that the best material is a combination of anatase, TiO2-B and rutile. The product yield increases with increasing heat treatment temperature of TiO2 NWs. This is associated with an increase in the degree of crystallinity of the material. It is shown that the best product yield of the CO2 reduction in H2O vapor is achieved when the TiO2 NW photocatalyst is heated to 100 °C.

Published

2024

4. Predicting anti-SARS-CoV-2 activities of chemical compounds using machine learning models

Author

Beihong Ji, Yuhui Wu, Elena N. Thomas, Jocelyn N. Edwards, Xibing He, and Junmei Wang

Subjects

COVID-19, Machine Learning, In Silico Screening, Antiviral Compounds, SHAP Analysis, Attentive FP, Chemistry, QD1-999, Electronic computers. Computer science, QA75.5-76.95

Abstract

To accelerate the discovery of novel drug candidates for Coronavirus Disease 2019 (COVID-19) therapeutics, we reported a series of machine learning (ML)-based models to accurately predict the anti-SARS-CoV-2 activities of screening compounds. We explored 6 popular ML algorithms in combination with 15 molecular descriptors for molecular structures from 9 screening assays in the COVID-19 OpenData Portal hosted by NCATS. As a result, the models constructed by k-nearest neighbors (KNN) using the molecular descriptor GAFF+RDKit achieved the best overall performance with the highest average accuracy of 0.68 and relatively high average area under the receiver operating characteristic curve of 0.74, better than other ML algorithms. Meanwhile, The KNN model for all assays using GAFF+RDKit descriptor outperformed using other descriptors. The overall performance of our developed models was better than REDIAL-2020 (R). A web server (https://clickff.org/amberweb/covid-19-cp) was developed to enable users to predict anti-SARS-CoV-2 activities of arbitrary compounds using the COVID-19-CP (P) models. Besides the descriptor-based machine learning models, we also developed graph-based Attentive FP (A) models for the 9 assays. We found that the Attentive FP models achieved a comparable performance to that of COVID-19-CP and outperformed the REDIAL-2020 models. The consensus prediction utilizing both COVID-19-CP and Attentive FP can significantly boost the prediction accuracy as assessed by comparing its performance with other three individual models (R, P, A) utilizing the Wilcoxon signed-rank test, thus can ultimately improve the success rate of COVID-19 drug discovery.

Published

2023

5. The Set of Serine Peptidases of the Tenebrio molitor Beetle: Transcriptomic Analysis on Different Developmental Stages

Author

Nikita I. Zhiganov, Konstantin S. Vinokurov, Ruslan S. Salimgareev, Valeriia F. Tereshchenkova, Yakov E. Dunaevsky, Mikhail A. Belozersky, and Elena N. Elpidina

Subjects

Tenebrio molitor, serine peptidases, serine peptidase homologs, polypeptidases, phylogenetic analysis, expression patterns, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Serine peptidases (SPs) of the chymotrypsin S1A subfamily are an extensive group of enzymes found in all animal organisms, including insects. Here, we provide analysis of SPs in the yellow mealworm Tenebrio molitor transcriptomes and genomes datasets and profile their expression patterns at various stages of ontogeny. A total of 269 SPs were identified, including 137 with conserved catalytic triad residues, while 125 others lacking conservation were proposed as non-active serine peptidase homologs (SPHs). Seven deduced sequences exhibit a complex domain organization with two or three peptidase units (domains), predicted both as active or non-active. The largest group of 84 SPs and 102 SPHs had no regulatory domains in the propeptide, and the majority of them were expressed only in the feeding life stages, larvae and adults, presumably playing an important role in digestion. The remaining 53 SPs and 23 SPHs had different regulatory domains, showed constitutive or upregulated expression at eggs or/and pupae stages, participating in regulation of various physiological processes. The majority of polypeptidases were mainly expressed at the pupal and adult stages. The data obtained expand our knowledge on SPs/SPHs and provide the basis for further studies of the functions of proteins from the S1A subfamily in T. molitor.

Published

2024

6. Key FAD2, FAD3, and SAD Genes Involved in the Fatty Acid Synthesis in Flax Identified Based on Genomic and Transcriptomic Data

Author

Ekaterina M. Dvorianinova, Olga L. Zinovieva, Elena N. Pushkova, Daiana A. Zhernova, Tatiana A. Rozhmina, Liubov V. Povkhova, Roman O. Novakovskiy, Elizaveta A. Sigova, Anastasia A. Turba, Elena V. Borkhert, George S. Krasnov, Chengjiang Ruan, Alexey A. Dmitriev, and Nataliya V. Melnikova

Subjects

flax, Linum usitatissimum L., unsaturated fatty acids, desaturases, FAD, SAD, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

FAD (fatty acid desaturase) and SAD (stearoyl-ACP desaturase) genes play key roles in the synthesis of fatty acids (FA) and determination of oil composition in flax (Linum usitatissimum L.). We searched for FAD and SAD genes in the most widely used flax genome of the variety CDC Bethune and three available long-read assembled flax genomes—YY5, 3896, and Atlant. We identified fifteen FAD2, six FAD3, and four SAD genes. Of all the identified genes, 24 were present in duplicated pairs. In most cases, two genes from a pair differed by a significant number of gene-specific SNPs (single nucleotide polymorphisms) or even InDels (insertions/deletions), except for FAD2a-1 and FAD2a-2, where only seven SNPs distinguished these genes. Errors were detected in the FAD2a-1, FAD2a-2, FAD3c-1, and FAD3d-2 sequences in the CDC Bethune genome assembly but not in the long-read genome assemblies. Expression analysis of the available transcriptomic data for different flax organs/tissues revealed that FAD2a-1, FAD2a-2, FAD3a, FAD3b, SAD3-1, and SAD3-2 were specifically expressed in embryos/seeds/capsules and could play a crucial role in the synthesis of FA in flax seeds. In contrast, FAD2b-1, FAD2b-2, SAD2-1, and SAD2-2 were highly expressed in all analyzed organs/tissues and could be involved in FA synthesis in whole flax plants. FAD2c-2, FAD2d-1, FAD3c-1, FAD3c-2, FAD3d-1, FAD3d-2, SAD3-1, and SAD3-2 showed differential expression under stress conditions—Fusarium oxysporum infection and drought. The obtained results are essential for research on molecular mechanisms of fatty acid synthesis, FAD and SAD editing, and marker-assisted and genomic selection for breeding flax varieties with a determined fatty acid composition of oil.

Published

2023

7. Model Fuel Oxidation in the Presence of Molybdenum-Containing Catalysts Based on SBA-15 with Hydrophobic Properties

Author

Argam V. Akopyan, Polina D. Polikarpova, Nina V. Arzyaeva, Alexander V. Anisimov, Olga V. Maslova, Olga V. Senko, and Elena N. Efremenko

Subjects

Chemistry, QD1-999

Published

2021

8. New Composite Materials Based on Chitosan Films Reinforced with Chitin Nanofibrils for Cosmetic Application

Author

Vera V. Kodolova-Chukhontseva, Elena Y. Rozova, Elena N. Dresvyanina, Yulia A. Nashchekina, Irina P. Dobrovol’skaya, Elena N. Vlasova, Sergey G. Bystrov, Elena N. Popova, Tatiana P. Maslennikova, Vladimir E. Yudin, and Pierfrancesco Morganti

Subjects

chitosan, chitin nanofibrils, composite films, thermal modification, cosmetic masks, Chemistry, QD1-999

Abstract

Bioactive biodegradable chitosan films containing chitin nanofibrils have been developed for use as face masks in cosmetology. It was found that thermal modification of chitosan films promotes the transformation of the polymer into insoluble form without the use of alkali or aldehydes. The structure and properties of the films were studied by IT spectroscopy, atomic force microscopy, thermogravimetric analysis, and X-ray structural analysis. Analysis of infrared (IR) spectra showed that the addition of nanofibrils accelerates the process of thermal transformation in the composite films. This is apparent from the observed increase in the intensity ratio of 1030 cm−1\1580 cm−1 peaks in the spectrum of the thermally treated film (as compared to the spectrum of the initial sample and the spectrum of a chitosan film without chitin nanofibrils). The prepared composite films containing chitin nanofibrils possess improved mechanical characteristics: tensile strength 99 MPa and tensile strain 14%. The tetrazolium bromide (MTT) test revealed good viability of human dermal fibroblasts cultivated in the presence of the conditioned medium obtained after incubation of all types of films in the nutrient medium. The used process of thermal modification of chitosan and composite films (which is efficient and environmentally safe) allows one to prepare bioactive materials for applications in medicine and cosmetology.

Published

2023

9. Fighting Celiac Disease: Improvement of pH Stability of Cathepsin L In Vitro by Computational Design

Author

Anton O. Chugunov, Elena A. Dvoryakova, Maria A. Dyuzheva, Tatyana R. Simonyan, Valeria F. Tereshchenkova, Irina Yu. Filippova, Roman G. Efremov, and Elena N. Elpidina

Subjects

celiac disease, gluten intolerance, glutenase, acid stability, post-glutamine cleaving peptidase, cathepsin L, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Roughly 1% of the global population is susceptible to celiac disease (CD)—inheritable autoimmune inflammation of the small intestine caused by intolerance to gliadin proteins present in wheat, rye, and barley grains, and called gluten in wheat. Classical treatment is a life-long gluten-free diet, which is constraining and costly. An alternative approach is based upon the development and oral reception of effective peptidases that degrade in the stomach immunogenic proline- and glutamine-rich gliadin peptides, which are the cause of the severe reaction in the intestine. In previous research, we have established that the major digestive peptidase of an insect Tribolium castaneum—cathepsin L—hydrolyzes immunogenic prolamins after Gln residues but is unstable in the extremely acidic environment (pH 2–4) of the human stomach and cannot be used as a digestive aid. In this work, using molecular dynamics simulations, we discover the probable cause of the pH instability of cathepsin L—loss of the catalytically competent rotameric state of one of the active site residues, His 275. To “fix” the correct orientation of this residue, we designed a V277A mutant variant, which extends the range of stability of the peptidase in the acidic environment while retaining most of its activity. We suggest this protein as a lead glutenase for the development of oral medical preparation that fights CD and gluten intolerance in susceptible people.

Published

2023

10. The Composite TiO2–CuOx Layers Formed by Electrophoretic Method for CO2 Gas Photoreduction

Author

Larisa I. Sorokina, Andrey M. Tarasov, Anastasiya I. Pepelyaeva, Petr I. Lazarenko, Alexey Yu. Trifonov, Timofey P. Savchuk, Artem V. Kuzmin, Aleksey V. Tregubov, Elena N. Shabaeva, Ekaterina S. Zhurina, Lidiya S. Volkova, Sergey V. Dubkov, Dmitry V. Kozlov, and Dmitry Gromov

Subjects

electrophoretic deposition, TiO2–CuOx composites, photocatalysis, CO2 photoreduction, Chemistry, QD1-999

Abstract

This study demonstrates the ability to control the properties of TiO2–CuOx composite layers for photocatalytic applications by using a simple electrophoretic deposition method from isopropanol-based suspension. To obtain uniform layers with a controlled composition, the surfactant sodium lauryl sulfate was used, which influenced the electrophoretic mobility of the particles and the morphology of the deposited layers. The TiO2–CuOx composite layers with different CuOx contents (1.5, 5.5, and 11 wt.%) were obtained. It is shown that the optical band gap measured by UV–VIS–NIR diffuse reflectance spectra. When CuOx is added to TiO2, two absorption edges corresponding to TiO2 and CuOx are observed, indicating a broadening of the photosensitivity range of the material relative to pure TiO2. An open-circuit potential study shows that by changing the amount of CuOx in the composite material, one can control the ratio of free charge carriers (n and p) and, therefore, the catalytic properties of the material. As a result, the TiO2–CuOx composite layers have enhanced photocatalytic activity compared to the pure TiO2 layer: methanol yield grows with increasing CuOx content during CO2 photoreduction.

Published

2023

11. Cyanocobalamin-Modified Colistin–Hyaluronan Conjugates: Synthesis and Bioactivity

Author

Natallia V. Dubashynskaya, Anton N. Bokatyi, Tatiana S. Sall, Tatiana S. Egorova, Yuliya A. Nashchekina, Yaroslav A. Dubrovskii, Ekaterina A. Murashko, Elena N. Vlasova, Elena V. Demyanova, and Yury A. Skorik

Subjects

colistin, hyaluronic acid, cyanocobalamin, polymeric conjugates, oral drug delivery, intestinal permeability, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Polymeric drug delivery systems enhance the biopharmaceutical properties of antibiotics by increasing their bioavailability, providing programmable and controlled-release properties, and reducing toxicity. In addition, drug delivery systems are a promising strategy to improve the intestinal permeability of various antimicrobial agents, including colistin (CT). This study describes the modification of conjugates based on CT and hyaluronic acid (HA) with cyanocobalamin (vitamin B12). Vitamin B12 was chosen as a targeting ligand because it has its own absorption pathway in the small intestine. The resulting polysaccharide conjugates contained 95 μg/mg vitamin B12 and the CT content was 335 μg/mg; they consisted of particles of two sizes, 98 and 702 nm, with a ζ-potential of approximately −25 mV. An in vitro release test at pH 7.4 and pH 5.2 showed an ultra-slow release of colistin of approximately 1% after 10 h. The modified B12 conjugates retained their antimicrobial activity at the level of pure CT (minimum inhibitory concentration was 2 μg/mL). The resulting delivery systems also reduced the nephrotoxicity of CT by 30–40% (HEK 293 cell line). In addition, the modification of B12 improved the intestinal permeability of CT, and the apparent permeability coefficient of HA–CT–B12 conjugates was 3.5 × 10−6 cm/s, corresponding to an in vivo intestinal absorption of 50–100%. Thus, vitamin-B12-modified conjugates based on CT and HA may be promising oral delivery systems with improved biopharmaceutical properties.

Published

2023

12. Expression-Based Diagnosis, Treatment Selection, and Drug Development for Breast Cancer

Author

Qing Ye, Jiajia Wang, Barbara Ducatman, Rebecca A. Raese, Jillian L. Rogers, Ying-Wooi Wan, Chunlin Dong, Lindsay Padden, Elena N. Pugacheva, Yong Qian, and Nancy Lan Guo

Subjects

atypical ductal hyperplasia (ADH), atypical ductal hyperplasia with cancer (ADHC), diagnosis, CRISPR-Cas9/RNAi, immunohistochemistry, triple-negative breast cancer (TNBC), Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

There is currently no gene expression assay that can assess if premalignant lesions will develop into invasive breast cancer. This study sought to identify biomarkers for selecting patients with a high potential for developing invasive carcinoma in the breast with normal histology, benign lesions, or premalignant lesions. A set of 26-gene mRNA expression profiles were used to identify invasive ductal carcinomas from histologically normal tissue and benign lesions and to select those with a higher potential for future cancer development (ADHC) in the breast associated with atypical ductal hyperplasia (ADH). The expression-defined model achieved an overall accuracy of 94.05% (AUC = 0.96) in classifying invasive ductal carcinomas from histologically normal tissue and benign lesions (n = 185). This gene signature classified cancer development in ADH tissues with an overall accuracy of 100% (n = 8). The mRNA expression patterns of these 26 genes were validated using RT-PCR analyses of independent tissue samples (n = 77) and blood samples (n = 48). The protein expression of PBX2 and RAD52 assessed with immunohistochemistry were prognostic of breast cancer survival outcomes. This signature provided significant prognostic stratification in The Cancer Genome Atlas breast cancer patients (n = 1100), as well as basal-like and luminal A subtypes, and was associated with distinct immune infiltration and activities. The mRNA and protein expression of the 26 genes was associated with sensitivity or resistance to 18 NCCN-recommended drugs for treating breast cancer. Eleven genes had significant proliferative potential in CRISPR-Cas9/RNAi screening. Based on this gene expression signature, the VEGFR inhibitor ZM-306416 was discovered as a new drug for treating breast cancer.

Published

2023

13. p53 Affects Zeb1 Interactome of Breast Cancer Stem Cells

Author

Sergey E. Parfenyev, Sergey V. Shabelnikov, Elena N. Tolkunova, Nickolai A. Barlev, and Alexey G. Mittenberg

Subjects

breast cancer, cancer stem cells, epithelial-to-mesenchymal transition (EMT), metastasis, p53, Zeb1, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

P53 is a critical tumor suppressor that protects the integrity of genome and prevents cells from malignant transformation, including metastases. One of the driving forces behind the onset of metastases is the epithelial to mesenchymal transition (EMT) program. Zeb1 is one of the key transcription factors that govern EMT (TF-EMT). Therefore, the interaction and mutual influence of p53 and Zeb1 plays a critical role in carcinogenesis. Another important feature of tumors is their heterogeneity mediated by the presence of so-called cancer stem cells (CSCs). To this end, we have developed a novel fluorescent reporter-based approach to enrich the population of CSCs in MCF7 cells with inducible expression of Zeb1. Using these engineered cell lines, we studied the effect of p53 on Zeb1 interactomes isolated from both CSCs and regular cancer cells. By employing co-immunoprecipitations followed by mass spectrometry, we found that the composition of Zeb1 interactome was affected not only by the p53 status but also by the level of Oct4/Sox2 expression, indicating that stemness likely affects the specificity of Zeb1 interactions. This study, together with other proteomic studies of TF-EMT interactomes, provides a framework for future molecular analyses of biological functions of Zeb1 at all stages of oncogenesis.

Published

2023

14. MIL-100(Fe)-Based Composite Films for Food Packaging

Author

Alexandra M. Pak, Elena A. Maiorova, Elizaveta D. Siaglova, Teimur M. Aliev, Elena N. Strukova, Aleksey V. Kireynov, Alexey A. Piryazev, and Valentin V. Novikov

Subjects

biocompatible metal–organic frameworks, active food packaging, hydrocolloids, composite materials, Chemistry, QD1-999

Abstract

A biocompatible metal–organic framework MIL-100(Fe) loaded with the active compounds of tea tree essential oil was used to produce composite films based on κ-carrageenan and hydroxypropyl methylcellulose with the uniform distribution of the particles of this filler. The composite films featured great UV-blocking properties, good water vapor permeability, and modest antibacterial activity against both Gram-negative and Gram-positive bacteria. The use of metal–organic frameworks as containers of hydrophobic molecules of natural active compounds makes the composites made from naturally occurring hydrocolloids attractive materials for active packaging of food products.

Published

2023

15. Impact of Chronic Oral Administration of Gold Nanoparticles on Cognitive Abilities of Mice

Author

Alexandra L. Ivlieva, Elena N. Petritskaya, Dmitriy A. Rogatkin, Inga Zinicovscaia, Nikita Yushin, and Dmitrii Grozdov

Subjects

gold nanoparticles, neutron activation analysis, anxiety, cognitive functions, development, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The influence of gold nanoparticles after their prolonged oral administration to mice (during pregnancy and lactation) on spatial memory and anxiety levels in offspring was investigated. Offspring were tested in the Morris water maze and in the elevated Plus-maze. The average specific mass content of gold which crossed the blood–brain barrier was measured using neutron activation analysis and constituted 3.8 ng/g for females and 1.1 ng/g for offspring. Experimental offspring showed no differences in spatial orientation and memory compared to the control, while their anxiety levels increased. Gold nanoparticles influenced the emotional state of mice exposed to nanoparticles during prenatal and early postnatal development, but not their cognitive abilities.

Published

2023

16. Tear nanoDSF Denaturation Profile Is Predictive of Glaucoma

Author

Viktoriia E. Baksheeva, Veronika V. Tiulina, Elena N. Iomdina, Sergey Yu. Petrov, Olga M. Filippova, Nina Yu. Kushnarevich, Elena A. Suleiman, Rémi Eyraud, François Devred, Marina V. Serebryakova, Natalia G. Shebardina, Dmitry V. Chistyakov, Ivan I. Senin, Vladimir A. Mitkevich, Philipp O. Tsvetkov, and Evgeni Yu. Zernii

Subjects

biomarker, diagnostic, glaucoma, POAG, tear fluid, tear proteins, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Primary open-angle glaucoma (POAG) is a frequent blindness-causing neurodegenerative disorder characterized by optic nerve and retinal ganglion cell damage most commonly due to a chronic increase in intraocular pressure. The preservation of visual function in patients critically depends on the timeliness of detection and treatment of the disease, which is challenging due to its asymptomatic course at early stages and lack of objective diagnostic approaches. Recent studies revealed that the pathophysiology of glaucoma includes complex metabolomic and proteomic alterations in the eye liquids, including tear fluid (TF). Although TF can be collected by a non-invasive procedure and may serve as a source of the appropriate biomarkers, its multi-omics analysis is technically sophisticated and unsuitable for clinical practice. In this study, we tested a novel concept of glaucoma diagnostics based on the rapid high-performance analysis of the TF proteome by differential scanning fluorimetry (nanoDSF). An examination of the thermal denaturation of TF proteins in a cohort of 311 ophthalmic patients revealed typical profiles, with two peaks exhibiting characteristic shifts in POAG. Clustering of the profiles according to peaks maxima allowed us to identify glaucoma in 70% of cases, while the employment of artificial intelligence (machine learning) algorithms reduced the amount of false-positive diagnoses to 13.5%. The POAG-associated alterations in the core TF proteins included an increase in the concentration of serum albumin, accompanied by a decrease in lysozyme C, lipocalin-1, and lactotransferrin contents. Unexpectedly, these changes were not the only factor affecting the observed denaturation profile shifts, which considerably depended on the presence of low-molecular-weight ligands of tear proteins, such as fatty acids and iron. Overall, we recognized the TF denaturation profile as a novel biomarker of glaucoma, which integrates proteomic, lipidomic, and metallomic alterations in tears, and monitoring of which could be adapted for rapid non-invasive screening of the disease in a clinical setting.

Published

2023

17. Chitosan Composites with Bacterial Cellulose Nanofibers Doped with Nanosized Cerium Oxide: Characterization and Cytocompatibility Evaluation

Author

Valentina A. Petrova, Iosif V. Gofman, Natallia V. Dubashynskaya, Alexey S. Golovkin, Alexander I. Mishanin, Elena M. Ivan’kova, Dmitry P. Romanov, Albert K. Khripunov, Elena N. Vlasova, Alexandra V. Migunova, Alexander E. Baranchikov, Vladimir K. Ivanov, Alexander V. Yakimansky, and Yury A. Skorik

Subjects

nanocomposites, biopolymers, bacterial cellulose, chitosan, ceria nanoparticles, stem cells’ proliferation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In this work, new composite films were prepared by incorporating the disintegrated bacterial cellulose (BCd) nanofibers and cerium oxide nanoparticles into chitosan (CS) matrices. The influence of the amount of nanofillers on the structure and properties of the polymer composites and the specific features of the intermolecular interactions in the materials were determined. An increase in film stiffness was observed as a result of reinforcing the CS matrix with BCd nanofibers: the Young’s modulus increased from 4.55 to 6.3 GPa with the introduction of 5% BCd. A further increase in Young’s modulus of 6.7 GPa and a significant increase in film strength (22% increase in yield stress compared to the CS film) were observed when the BCd concentration was increased to 20%. The amount of nanosized ceria affected the structure of the composite, followed by a change in the hydrophilic properties and texture of the composite films. Increasing the amount of nanoceria to 8% significantly improved the biocompatibility of the films and their adhesion to the culture of mesenchymal stem cells. The obtained nanocomposite films combine a number of favorable properties (good mechanical strength in dry and swollen states, improved biocompatibility in relation to the culture of mesenchymal stem cells), which allows us to recommend them for use as a matrix material for the culture of mesenchymal stem cells and wound dressings.

Published

2023

18. Polycondensation in a spray of aqueous-alcoholic solution of lactic acid

Author

Victor V. Fedoseev and Elena N. Fedoseeva

Subjects

polycondensation, spray, polylactide, microencapsulation, phase transitions, Chemistry, QD1-999

Abstract

The removal of low molecular weight products of the reaction and heat withdrawal is one of the problems of bulk polycondensation. Polycondensation under spray conditions is an effective way to solve these problems. Based on the example of the reversible reaction of lactic acid polycondensation, it was shown that size effects can significantly affect the conversion rate, the degree of polymerization, and the rate of processes. Chemical thermodynamics suggests that chemical equilibrium in a spray shifts towards the formation of polylactide. In addition, the recondensation of volatile components (water, lactic acid, solvent) stabilizes the concentration of reagents and the temperature in the spray drops throughout the entire process. Model experiments confirming the obtained regularities are presented. Microscopic observation of sessile drops of aqueous and aqueous-alcoholic lactic acid solutions demonstrated the formation of polylactide under normal conditions (without heating, catalyst, evacuation).

Published

2022

19. Structure–Property Relationship of Polyetherimide Fibers Filled with Carbon Nanoparticles

Author

Elena M. Ivan’kova, Gleb V. Vaganov, Elena N. Popova, Vladimir Yu Elokhovskiy, and Igor A. Kasatkin

Subjects

Chemistry, QD1-999

Published

2020

20. Enzyme Inhibition-Based Assay to Estimate the Contribution of Formulants to the Effect of Commercial Pesticide Formulations

Author

Elena N. Esimbekova, Valeriya P. Kalyabina, Kseniya V. Kopylova, Victoria I. Lonshakova-Mukina, Anna A. Antashkevich, Irina G. Torgashina, Kirill A. Lukyanenko, Elena V. Nemtseva, and Valentina A. Kratasyuk

Subjects

enzyme inhibition-based assay, pesticides, bioluminescent assay, luminous bacteria, conjugated enzyme reactions, formulants, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Pesticides can affect the health of individual organisms and the function of the entire ecosystem. Therefore, thorough assessment of the risks associated with the use of pesticides is a high-priority task. An enzyme inhibition-based assay is used in this study as a convenient and quick tool to study the effects of pesticides at the molecular level. The contribution of formulants to toxicological properties of the pesticide formulations has been studied by analyzing effects of 7 active ingredients of pesticides (AIas) and 10 commercial formulations based on them (AIfs) on the function of a wide range of enzyme assay systems differing in complexity (single-, coupled, and three-enzyme assay systems). Results have been compared with the effects of AIas and AIfs on bioluminescence of the luminous bacterium Photobacterium phosphoreum. Mostly, AIfs produce a considerably stronger inhibitory effect on the activity of enzyme assay systems and bioluminescence of the luminous bacterium than AIas, which confirms the contribution of formulants to toxicological properties of the pesticide formulation. Results of the current study demonstrate that “inert” ingredients are not ecotoxicologically safe and can considerably augment the inhibitory effect of pesticide formulations; therefore, their use should be controlled more strictly. Circular dichroism and fluorescence spectra of the enzymes used for assays do not show any changes in the protein structure in the presence of commercial pesticide formulations during the assay procedure. This finding suggests that pesticides produce the inhibitory effect on enzymes through other mechanisms.

Published

2023

21. Conjugates of Tacrine and Salicylic Acid Derivatives as New Promising Multitarget Agents for Alzheimer’s Disease

Author

Galina F. Makhaeva, Nadezhda V. Kovaleva, Elena V. Rudakova, Natalia P. Boltneva, Maria V. Grishchenko, Sofya V. Lushchekina, Tatiana Y. Astakhova, Olga G. Serebryakova, Elena N. Timokhina, Ekaterina F. Zhilina, Evgeny V. Shchegolkov, Mariya V. Ulitko, Eugene V. Radchenko, Vladimir A. Palyulin, Yanina V. Burgart, Victor I. Saloutin, Sergey O. Bachurin, and Rudy J. Richardson

Subjects

Alzheimer’s disease, acetylcholinesterase, butyrylcholinesterase, salicylic acid derivatives, tacrine conjugates, propidium displacement, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

A series of previously synthesized conjugates of tacrine and salicylamide was extended by varying the structure of the salicylamide fragment and using salicylic aldehyde to synthesize salicylimine derivatives. The hybrids exhibited broad-spectrum biological activity. All new conjugates were potent inhibitors of acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) with selectivity toward BChE. The structure of the salicylamide moiety exerted little effect on anticholinesterase activity, but AChE inhibition increased with spacer elongation. The most active conjugates were salicylimine derivatives: IC50 values of the lead compound 10c were 0.0826 µM (AChE) and 0.0156 µM (BChE), with weak inhibition of the off-target carboxylesterase. The hybrids were mixed-type reversible inhibitors of both cholinesterases and displayed dual binding to the catalytic and peripheral anionic sites of AChE in molecular docking, which, along with experimental results on propidium iodide displacement, suggested their potential to block AChE-induced β-amyloid aggregation. All conjugates inhibited Aβ42 self-aggregation in the thioflavin test, and inhibition increased with spacer elongation. Salicylimine 10c and salicylamide 5c with (CH2)8 spacers were the lead compounds for inhibiting Aβ42 self-aggregation, which was corroborated by molecular docking to Aβ42. ABTS•+-scavenging activity was highest for salicylamides 5a–c, intermediate for salicylimines 10a–c, low for F-containing salicylamides 7, and non-existent for methoxybenzoylamides 6 and difluoromethoxybenzoylamides 8. In the FRAP antioxidant (AO) assay, the test compounds displayed little or no activity. Quantum chemical analysis and molecular dynamics (MD) simulations with QM/MM potentials explained the AO structure–activity relationships. All conjugates were effective chelators of Cu2+, Fe2+, and Zn2+, with molar compound/metal (Cu2+) ratios of 2:1 (5b) and ~1:1 (10b). Conjugates exerted comparable or lower cytotoxicity than tacrine on mouse hepatocytes and had favorable predicted intestinal absorption and blood-brain barrier permeability. The overall results indicate that the synthesized conjugates are promising new multifunctional agents for the potential treatment of AD.

Published

2023

22. Experimental study and mathematical modelling of self-oscillation at the electrode-magnetic fluid interface in an electric field

Author

Vladimir S. Chekanov, Evgeniya V. Kirillova, Anna V. Kovalenko, and Elena N. Diskaeva

Subjects

magnetic fluid, interface, near-electrode layer, electric field, self-oscillation, mathematical model, Chemistry, QD1-999

Abstract

The article describes a mathematical model of self-oscillation in the form of a boundary value problem for a nonlinear system of partial differential equations, with a numerical solution. The numerical results were compared to the experimental data to confirm the adequacy of the model. The model uses the classical system of differential equations of material balance, Nernst-Planck and Poisson equations without simplifications or fitting parameters. The aim of the article was to study the parameters of concentration self-oscillation in a layer of the dispersed phase particles of magnetic fluid at the interface with an electrode in an electric field. For this purpose, we developed a mathematical model, the consistency of which was confirmed by the corresponding physical mechanism. As a result of numerical experiments, we found the critical value of the potential jump after which self-oscillation began. We also determined the oscillation growth period and other characteristics of the process. We developed software called AutoWave01 with an intuitive user interface and advanced functionality for the study of self-oscillation in a thin layer of magnetic colloid.

Published

2021

23. Application of Long-Read Nanopore Sequencing to the Search for Mutations in Hypertrophic Cardiomyopathy

Author

Ramil R. Salakhov, Maria V. Golubenko, Nail R. Valiakhmetov, Elena N. Pavlyukova, Aleksei A. Zarubin, Nadezhda P. Babushkina, Aksana N. Kucher, Aleksei A. Sleptcov, and Maria S. Nazarenko

Subjects

hypertrophic cardiomyopathy, long-read sequencing, Oxford Nanopore, sarcomeric protein genes, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Increasing evidence suggests that both coding and non-coding regions of sarcomeric protein genes can contribute to hypertrophic cardiomyopathy (HCM). Here, we introduce an experimental workflow (tested on four patients) for complete sequencing of the most common HCM genes (MYBPC3, MYH7, TPM1, TNNT2, and TNNI3) via long-range PCR, Oxford Nanopore Technology (ONT) sequencing, and bioinformatic analysis. We applied Illumina and Sanger sequencing to validate the results, FastQC, Qualimap, and MultiQC for quality evaluations, MiniMap2 to align data, Clair3 to call and phase variants, and Annovar’s tools and CADD to assess pathogenicity of variants. We could not amplify the region encompassing exons 6–12 of MYBPC3. A higher sequencing error rate was observed with ONT (6.86–6.92%) than with Illumina technology (1.14–1.35%), mostly for small indels. Pathogenic variant p.Gln1233Ter and benign polymorphism p.Arg326Gln in MYBPC3 in a heterozygous state were found in one patient. We demonstrated the ability of ONT to phase single-nucleotide variants, enabling direct haplotype determination for genes TNNT2 and TPM1. These findings highlight the importance of long-range PCR efficiency, as well as lower accuracy of variant calling by ONT than by Illumina technology; these differences should be clarified prior to clinical application of the ONT method.

Published

2022

24. Nickel Catalysts on Carbon-Mineral Sapropel-Based Supports for Liquid-Phase Hydrogenation of Nitrobenzene

Author

Elena N. Terekhova, Olga B. Belskaya, Rinat R. Izmaylov, Mikhail V. Trenikhin, and Vladimir A. Likholobov

Subjects

sapropel, supported nickel catalyst, liquid-phase nitrobenzene hydrogenation, Chemical technology, TP1-1185, Chemistry, QD1-999

Abstract

Nickel catalysts with carbon-mineral supports derived from sapropel were synthesized; the effect exerted by the nature of the support (type of the initial sapropel) and active component precursor on the activity of the catalysts in the model reaction of liquid-phase nitrobenzene hydrogenation was studied. The catalysts, synthesized using the support with a smaller fraction of carbon, were more active irrespective of the precursor nature. The highest activity was observed for the catalysts synthesized from nickel nitrate and formate; nitrobenzene conversion was 65% and 51%, respectively, after 1 h of reaction. The catalysts retained high activity after six reaction cycles at 100% aniline selectivity. The presence of sulfur in the nickel precursor deteriorated the catalytic activity (convection less than 3%) due to formation of the sulfide phase.

Published

2022

25. Fluorescent Magnetic Nanoparticles for Bioimaging through Biomimetic Surface Modification

Author

Andrey S. Drozdov, Kristina S. Komarova, Elizaveta N. Mochalova, Elena N. Komedchikova, Victoria O. Shipunova, and Maxim P. Nikitin

Subjects

magnetite, dopamine, surface modification, hybrid materials, in vivo imaging, biodistribution, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Nanostructured materials and systems find various applications in biomedical fields. Hybrid organo–inorganic nanomaterials are intensively studied in a wide range of areas, from visualization to drug delivery or tissue engineering. One of the recent trends in material science is biomimetic approaches toward the synthesis or modification of functional nanosystems. Here, we describe an approach toward multifunctional nanomaterials through the biomimetic polymerization of dopamine derivatives. Magnetite nanoparticles were modified with a combination of dopamine conjugates to give multifunctional magneto-fluorescent nanocomposites in one synthetic step. The obtained material showed excellent biocompatibility at concentrations up to 200 μg/mL and an in vivo biodistribution profile typical for nanosized formulations. The synthesized systems were conjugated with antibodies against HER2 to improve their selectivity toward HER2-positive cancer cells. The produced material can be used for dual magneto-optical in vivo studies or targeted drug delivery. The applied synthetic strategy can be used for the creation of various multifunctional hybrid nanomaterials in mild conditions.

Published

2022

26. Complex of Proline-Specific Peptidases in the Genome and Gut Transcriptomes of Tenebrionidae Insects and Their Role in Gliadin Hydrolysis

Author

Valeriia F. Tereshchenkova, Irina Y. Filippova, Irina A. Goptar, Yakov E. Dunaevsky, Mikhail A. Belozersky, and Elena N. Elpidina

Subjects

proline-specific peptidases, dipeptidyl peptidase 4, transcriptomic analysis, Tenebrionidae insects, gliadin hydrolysis, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

A detailed analysis of the complexes of proline-specific peptidases (PSPs) in the midgut transcriptomes of the larvae of agricultural pests Tenebrio molitor and Tribolium castaneum and in the genome of T. castaneum is presented. Analysis of the T. castaneum genome revealed 13 PSP sequences from the clans of serine and metal-dependent peptidases, of which 11 sequences were also found in the gut transcriptomes of both tenebrionid species’ larvae. Studies of the localization of PSPs, evaluation of the expression level of their genes in gut transcriptomes, and prediction of the presence of signal peptides determining secretory pathways made it possible to propose a set of peptidases that can directly participate in the hydrolysis of food proteins in the larvae guts. The discovered digestive PSPs of tenebrionids in combination with the post-glutamine cleaving cysteine cathepsins of these insects effectively hydrolyzed gliadins, which are the natural food substrates of the studied pests. Based on the data obtained, a hypothetical scheme for the complete hydrolysis of immunogenic gliadin peptides by T. molitor and T. castaneum digestive peptidases was proposed. These results show promise regarding the development of a drug based on tenebrionid digestive enzymes for the enzymatic therapy of celiac disease and gluten intolerance.

Published

2022

27. Transfer and Distribution of Metals and Metalloids in Carassius auratus Organs from Tailings Pond and Their Influence on Morphological Characteristics

Author

Elena N. Yadrenkina, Svetlana B. Bortnikova, Nataliya V. Yurkevich, Tatyana V. Korneeva, Artem Y. Shevko, Vladimir V. Olenchenko, and Albina A. Khvachevskaya

Subjects

mine tailings pond, electrical resistivity tomography, Carassius auratus, metals and metalloids, dwarf forms, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

This article provides the results of the elemental composition study of Carassius auratus organs living in the Komsomolsk mine tailings pond, in which the water contains elevated concentrations of metals and metalloids. It was determined with an electrotomography survey that the pond is bordered vertically and laterally with highly conductive zones, in which pore waters are high-mineralized solutions. Due to the constant infiltration of solutions into the pond water, a stable composition is formed with elevated concentrations of a number of elements (sulfate-ion, As, Sb, Zn, Cd, Se, and others) exceeding background values. In the organs of Carassius auratus living in the pond, the accumulation of many elements occurs, the largest Sb, As, Cd, Hg, and Pb and to a lesser extent Al, Cu, Zn, and Se. Moreover, the concentration of elements is selective. In total, the greatest excess of element concentrations over background values was determined in the heart (15,000 times) and gills (4100 times) of fish, the smallest in muscles (1900 times) and liver (2000 times). The impact of the accumulation of metals and metalloids in fish organs influenced the metabolic rate, a decrease in the growth rate of Carassius auratus, and the appearance of dwarf forms.

Published

2022

28. Hard carbon as a negative electrode material for potassium-ion batteries prepared with high yield through a polytetrafluoroethylene-based precursor

Author

Elena N. Abramova, Nazerke Marat, Dmitry P. Rupasov, Polina A. Morozova, Maria A. Kirsanova, and Artem M. Abakumov

Subjects

Hard carbon, Electrode materials, Negative electrode, Potassium-ion batteries, Synthesis, Chemistry, QD1-999

Abstract

A new additive (polytetrafluoroethylene, PTFE) to typical sugar precursors for hard carbon (HC) preparation via hydrothermal carbonization has been proposed and investigated. The HC samples obtained from sugars (D-glucose and pectin) with and without PTFE were characterized with X-ray powder diffraction, Raman spectroscopy, scanning and transmission electron microscopy, energy-dispersive X-ray and electron energy loss spectroscopy, specific surface area measurements. Adding PTFE to sugars significantly improves the HC yield from

Published

2021

29. Isolating Linum usitatissimum L. Nuclear DNA Enabled Assembling High-Quality Genome

Author

Ekaterina M. Dvorianinova, Nadezhda L. Bolsheva, Elena N. Pushkova, Tatiana A. Rozhmina, Alexander A. Zhuchenko, Roman O. Novakovskiy, Liubov V. Povkhova, Elizaveta A. Sigova, Daiana A. Zhernova, Elena V. Borkhert, Dmitry N. Kaluzhny, Nataliya V. Melnikova, and Alexey A. Dmitriev

Subjects

flax, Linum usitatissimum, nuclei extraction, high-molecular-weight DNA, nanopore, high-quality genome, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

High-quality genome sequences help to elucidate the genetic basis of numerous biological processes and track species evolution. For flax (Linum usitatissimum L.)—a multifunctional crop, high-quality assemblies from Oxford Nanopore Technologies (ONT) data were unavailable, largely due to the difficulty of isolating pure high-molecular-weight DNA. This article proposes a scheme for gaining a contiguous L. usitatissimum assembly using Nanopore data. We developed a protocol for flax nuclei isolation with subsequent DNA extraction, which allows obtaining about 5 μg of pure high-molecular-weight DNA from 0.5 g of leaves. Such an amount of material can be collected even from a single plant and yields more than 30 Gb of ONT data in two MinION runs. We performed a comparative analysis of different genome assemblers and polishers on the gained data and obtained the final 447.1-Mb assembly of L. usitatissimum line 3896 genome using the Canu—Racon (two iterations)—Medaka combination. The genome comprised 1695 contigs and had an N50 of 6.2 Mb and a completeness of 93.8% of BUSCOs from eudicots_odb10. Our study highlights the impact of the chosen genome construction strategy on the resulting assembly parameters and its eligibility for future genomic studies.

Published

2022

30. The Arginine Kinase from the Tick Rhipicephalus sanguineus Is an Efficient Biocatalyst

Author

Ana C. Gomez-Yanes, Elena N. Moreno-Cordova, Karina D. Garcia-Orozco, Aldana Laino, Maria A. Islas-Osuna, Alonso A. Lopez-Zavala, Jesus G. Valenzuela, and Rogerio R. Sotelo-Mundo

Subjects

arginine kinase, enzyme, allergen, tick, crystal structure, epitopes, Chemical technology, TP1-1185, Chemistry, QD1-999

Abstract

Arginine kinase (AK) is a reversible enzyme that regulates invertebrates’ phosphagen arginine phosphate levels. AK also elicits an immune response in humans, and it is a major food allergen in crustacea and may be a target for novel antiparasitic drugs. Although AK has been primarily described in the shrimp, it is also present in other invertebrates, such as the brown tick Rhipicephalus sanguineus (Rs), the vector for Rocky Mountain Spotted Fever. Here we report the enzymatic activity and the crystal structure of AK from Rhipicephalus sanguineus (RsAK) in an open conformation without substrate or ligands and a theoretical structure of RsAK modeled bound with the substrate/product (Arg-ADP) in a closed conformation. The Michaelis-Menten kinetics confirmed that RsAK is an efficient biocatalyst due to its high kcat/Km parameter. The recombinant enzyme was expressed in bacteria and purified to a 20 mg/L culture yield. AK is an essential enzyme in invertebrates. Future work will be focused on the RsAK enzymatic inhibition that may lead to novel strategies to control this pest, a burden to animal and human health.

Published

2022

31. A Multicomponent Butyrylcholinesterase Preparation for Enzyme Inhibition-Based Assay of Organophosphorus Pesticides

Author

Victoria I. Lonshakova-Mukina, Elena N. Esimbekova, and Valentina A. Kratasyuk

Subjects

butyrylcholinesterase, enzyme stability, immobilization, starch, gelatin, enzyme inhibition-based assay, Chemical technology, TP1-1185, Chemistry, QD1-999

Abstract

A new method of producing butyrylcholinesterase (BChE) preparations, stable in storage and use, has been proposed. The BChE preparation is the enzyme co-immobilized with 0.2 M 5-5′-dithiobis (2-nitrobenzoic acid) in starch or gelatin gel. All experimental preparations retain enzyme activity for at least 300 d. The preparations based on gelatin gel show higher activity but lower sensitivity to the toxicants tested in this study compared to the starch gel-based preparations. A method has been proposed for integrated detection of anti-cholinesterase substances in aqueous solutions using the experimental preparation with immobilized BChE. After the additional incubation of the preparation with the immobilized enzyme in the solution of the analyte, the detection limits of malathion and pirimiphos-methyl determined using the IC20 values were below their maximum allowable concentrations—0.005 µM and 0.03 µM, respectively.

Published

2022

32. Recombinant Cathepsin L of Tribolium castaneum and Its Potential in the Hydrolysis of Immunogenic Gliadin Peptides

Author

Elena A. Dvoryakova, Maria A. Klimova, Tatiana R. Simonyan, Ivan A. Dombrovsky, Marina V. Serebryakova, Valeriia F. Tereshchenkova, Yakov E. Dunaevsky, Mikhail A. Belozersky, Irina Y. Filippova, and Elena N. Elpidina

Subjects

cathepsin L, cysteine peptidases, digestive peptidases, recombinant enzymes, gliadins, Tribolium castaneum, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Wheat gliadins contain a large amount of glutamine- and proline-rich peptides which are not hydrolyzed by human digestive peptidases and can cause autoimmune celiac disease and other forms of gluten intolerance in predisposed people. Peptidases that efficiently cleave such immunogenic peptides can be used in enzyme therapy. The stored product insect pest Tribolium castaneum efficiently hydrolyzes gliadins. The main digestive peptidase of T. castaneum is cathepsin L, which is from the papain C1 family with post-glutamine cleavage activity. We describe the isolation and characterization of T. castaneum recombinant procathepsin L (rpTcCathL1, NP_001164001), which was expressed in Pichia pastoris cells. The activation of the proenzyme was conducted by autocatalytic processing. The effects of pH and proenzyme concentration in the reaction mixture on the processing were studied. The mature enzyme retained high activity in the pH range from 5.0 to 9.0 and displayed high pH-stability from 4.0 to 8.0 at 20 °C. The enzyme was characterized according to electrophoretic mobility under native conditions, activity and stability at various pH values, a sensitivity to various inhibitors, and substrate specificity, and its hydrolytic effect on 8-, 10-, 26-, and 33-mer immunogenic gliadins peptides was demonstrated. Our results show that rTcCathL1 is an effective peptidase that can be used to develop a drug for the enzyme therapy of various types of gluten intolerance.

Published

2022

33. SOLUBILITY OF PHOSPHORUS IN TIN MONOARSENIDE

Author

Galina V. Semenova, Tatiana P. Sushkova, Elena N. Zinchenko, and Yakunin Sergei V.

Subjects

phase equilibria, solid solutions, Sn – As – P system., Chemistry, QD1-999

Abstract

The Sn – As – P system is characterized by the presence of unlimited solid solutions (Sn4As3)x (Sn4P3) 1–х (α-phase) and solid solutions based on tin monoarsenide (β-solid solutions) and SnP3 phosphide (γ-solid solutions). The solubility of phosphorus in SnAs depends not only on temperature, but also on the direction of the polythermal cross section, i.e. from that in the form of an individual simple substance or in the form of any of the tin phosphides, the doping component is introduced. In the present work, the confi guration of the region of existence of solid solutions of phosphorus in tin monoarsenide was investigated. Alloys of SnAs – Sn4P3:SnAs – Sn0.43P0.57; SnAs – SnP3 and SnAs – P polythermal sections, annealed at 753 K, were studied by X-ray phase analysis, the concentration range of the existence of a homogeneous solid solution was established, the parameters of the crystal structure were determined. The construction of quasi-chemical schemes for the doping of tin monoarsenide showed that with the introduction of SnP3, the greatest deviation from stoichiometry towards the lack of tin is observed. The highest solubility of phosphorus, reaching 30 mol % corresponds to this cut. Thus, the region of existence of solid solutions based on tin monoarsenide has an asymmetric shape shifted toward an excess of volatile components, and the maximum solubility of phosphorus corresponds to the direction of the polythermal section SnAs – SnP3. Taking into account the phase equilibrium scheme of the Sn – As – P ternary system and the obtained data on the confi guration of the region of existence of homogeneous solid solutions of phosphorus in the tin monoarsenide, a phase subsolidus demarcation scheme of the phase diagram of this system was carried out.

Published

2018

34. INCREASE IN THE ADHESIVE PROPERTIES OF COMMUTATION LAYERS ON SEMICONDUCTOR p-TYPE BRANCHES OF THERMOELECTRIC GENERATOR BATTERIES

Author

Evgenii K. Belonogov, Vladislav A. Dybov, Aleksandr V. Kostyuchenko, Sergei B. Kuschev, Dmitrii V. Serikov, Sergei A. Soldatenko, Elena N. Fedorova, Maria A. Pogorelova, and Artem O. Roslyakov

Subjects

thermoelectricity, bismuth telluride, surface modifi cation, barrier layer, phase composition, hardness, adhesion., Chemistry, QD1-999

Abstract

Existing studies demonstrate that the main cause of the degradation of switching contacts during the operation of thermoelements based on bismuth telluride are the low strength properties of this material and the insuffi cient adhesion of the barrier metallization layer to the surface of the semiconductor branch. The objective of this paper is to study the phase composition, morphology, hardness and adhesive properties of the surface of the semiconductor thermoelectric branches Bi2Te3−Sb2Te3 (p-type conductivity) obtained by hot pressing, after various types of surface modifi cation. P-type semiconductor branches based on Bi2Te3–Sb2Te3 solid solution were obtained by cold and subsequent hot isostatic pressing in vacuum (10–2 Pa) of respective powders and annealing semiconductor material blanks at T = 570 K for 24 hours in vacuum (10–1 Pa). Surface modifi cation of semiconductor branches was carried out by mechanical polishing and subsequent electrochemical polishing or pulsed photon treatment with incoherent light. Mechanical polishing was performed on a carbide-silicon abrasive disc with different grain sizes (from Р2000 to Р5000), to obtain a mirror surface. Pulsed photon treatment was performed by means of the radiation of xenon lamps (wavelength 0.2–1.2 μm) in an Ar atmosphere under the following conditions: double irradiation with a set of pulses with a duration of 10–2 s in 0.8 s, which corresponds to the radiation energy reaching the sample (EP), ~ 80 J/cm2. Electrochemical polishing was carried out in the following electrolyte composition: KOH – 90 g/l; H2C4H4O6 – 65 g/l, distilled water 845 g/l. Nickel was used as the switching layer, and molybdenum was used as the barrier layer. The layered deposition of metallic layers (Mo and Ni) onto the prepared surfaces of semiconductor branches was applied by magnetron sputtering of the corresponding targets in Ar. The phase analyses were performed by X-ray diffractometry (Bruker D2 Phaser). The relief and surface roughness of the samples were studied by atomic force microscopy (NT-MDT Solver P47). The hardness of the samples was measured by nanoindentation method. The adhesion of coatings to the branches was determined by the shear on the tensile testing machine RPM-10MG4. It has been determined that mechanical polishing of the p-type semiconductor branches based on Bi2Te3−Sb2Te3 solid solution results in surface hardening, and also increases the adhe sion of the Mo–Ni switching barrier layers by a factor of 2 compared with the adhesion of Mo–Ni layers on the surface of untreated branches. Subsequent electrochemical polishing increases the adhesion of Mo–Ni layers by 1.3 times, and pulsed photon treatment by 1.4 times compared with mechanically polished branches. It is shown that the energy effect of an PPT stimulates local recrystallization of the defective layer near the surface of semiconductor branches at a depth of 100−200 nm and increases the hardness of the near-surface layers of the Bi2Te3− Sb2Te3 solid solution by 1.2 times.

Published

2018

35. Towards 3D Bioprinted Spinal Cord Organoids

Author

Yilin Han, Marianne King, Evgenii Tikhomirov, Povilas Barasa, Cleide Dos Santos Souza, Jonas Lindh, Daiva Baltriukiene, Laura Ferraiuolo, Mimoun Azzouz, Maurizio R. Gullo, and Elena N. Kozlova

Subjects

neural stem cell, cell survival, cell differentiation, hydrogel, bioprinting, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Three-dimensional (3D) cultures, so-called organoids, have emerged as an attractive tool for disease modeling and therapeutic innovations. Here, we aim to determine if boundary cap neural crest stem cells (BC) can survive and differentiate in gelatin-based 3D bioprinted bioink scaffolds in order to establish an enabling technology for the fabrication of spinal cord organoids on a chip. BC previously demonstrated the ability to support survival and differentiation of co-implanted or co-cultured cells and supported motor neuron survival in excitotoxically challenged spinal cord slice cultures. We tested different combinations of bioink and cross-linked material, analyzed the survival of BC on the surface and inside the scaffolds, and then tested if human iPSC-derived neural cells (motor neuron precursors and astrocytes) can be printed with the same protocol, which was developed for BC. We showed that this protocol is applicable for human cells. Neural differentiation was more prominent in the peripheral compared to central parts of the printed construct, presumably because of easier access to differentiation-promoting factors in the medium. These findings show that the gelatin-based and enzymatically cross-linked hydrogel is a suitable bioink for building a multicellular, bioprinted spinal cord organoid, but that further measures are still required to achieve uniform neural differentiation.

Published

2022

36. A Tribute to Sergey Odinokov

Author

Olga I. Odinokova, Vasiliy Ya. Kolyuchkin, Artem B. Solomashenko, Maria V. Shishova, Evgenii Yu. Zlokazov, Rostislav S. Starikov, Nikolay N. Evtikhiev, Nikolay V. Nikonorov, Sergey A. Shoydin, Leonid V. Tanin, Gennadiy A. Gavrilov, Nina M. Ganzherli, Anatoliy V. Lukin, Andrei N. Melnikov, Rosalia Kh. Makaeva, Nadezhda K. Pavlycheva, Elena N. Bogachevskaya, Alkis Lembessis, Rajan Thomas, Michel Grosmann, Michael K. Shevtsov, Yves Gentet, Sergey G. Kalenkov, Olga F. Tikhomirova, Natalia L. Istomina, Olga V. Andreeva, Vladimir Yu. Venediktov, and Nikolay V. Petrov

Subjects

n/a, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

“My main goal was to point out new phenomena and spread the ideas, which will become the starting points for new research” [...]

Published

2022

37. Possibilities and peculiarities of spray technologies in organic synthesis

Author

Elena N. Fedoseeva and Victor B. Fedoseev

Subjects

organic synthesis in spray, size effects, chemical equilibrium constants, liquid-vapour equilibrium, nanoreactor., Chemistry, QD1-999

Abstract

Size effects considerably change the state and physicochemical properties of dispersal systems. The peculiarities of chemical processes occurring in small (nano, pico, and femtolitre) volumes are of a great importance for the production technologies of unique materials. The aim of this work was the experimental confirmation of size effects during chemical processes in small volumes and their interpretation based on the concepts of chemical thermodynamics. The object of the study consisted in reactions of organic synthesis conducted in ensembles of sessile drops formed by aqueous solutions of organic compounds with the participation of a gaseous medium. The methods of optical microscopy with digital image processing were used for observation. The experiments definitely demonstrate the influence of geometric parameters (radius, contact angle) on the kinetics of phase and chemical transformations in polydisperse ensembles of sessile drops of organic and aqueous-organic mixtures interacting with volatile reagents in a gaseous medium. These features are manifested in the kinetics of changes in the size of drops as well as in the morphology of products obtained by their evaporation. The interpretation of size effects in the framework of equilibrium chemical thermodynamics explains the shifts in chemical equilibrium and changes in the reaction rate. The equilibrium conditions arising in drops of different volumes during mass transfer with the gas phase were described. It is stated that the most important factor in the processes of organic synthesis using spray technologies is the high surface activity of organic substances. Comprehension and practical application of these peculiarities allows adjusting the reaction rate, improving the mutual solubility of partially miscible reagents, and affecting the composition and properties of the final product

Published

2020

38. Optogenetic and Chemical Induction Systems for Regulation of Transgene Expression in Plants: Use in Basic and Applied Research

Author

Evgeniya S. Omelina, Anastasiya A. Yushkova, Daria M. Motorina, Grigorii A. Volegov, Elena N. Kozhevnikova, and Alexey V. Pindyurin

Subjects

optogenetics, chemical induction, transgene expression regulation, plants, agriculture, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Continuous and ubiquitous expression of foreign genes sometimes results in harmful effects on the growth, development and metabolic activities of plants. Tissue-specific promoters help to overcome this disadvantage, but do not allow one to precisely control transgene expression over time. Thus, inducible transgene expression systems have obvious benefits. In plants, transcriptional regulation is usually driven by chemical agents under the control of chemically-inducible promoters. These systems are diverse, but usually contain two elements, the chimeric transcription factor and the reporter gene. The commonly used chemically-induced expression systems are tetracycline-, steroid-, insecticide-, copper-, and ethanol-regulated. Unlike chemical-inducible systems, optogenetic tools enable spatiotemporal, quantitative and reversible control over transgene expression with light, overcoming limitations of chemically-inducible systems. This review updates and summarizes optogenetic and chemical induction methods of transgene expression used in basic plant research and discusses their potential in field applications.

Published

2022

39. A Model of Catalytic Cracking: Catalyst Deactivation Induced by Feedstock and Process Variables

Author

Galina Y. Nazarova, Elena N. Ivashkina, Emiliya D. Ivanchina, and Maria Y. Mezhova

Subjects

saturates, resins, aromatics, catalyst-to-oil ratio, slops, catalyst, Chemical technology, TP1-1185, Chemistry, QD1-999

Abstract

Changes in the quality of the feedstocks generated by involving various petroleum fractions in catalytic cracking significantly affect catalyst deactivation, which stems from coke formed on the catalyst surface. By conducting experimental studies on feedstocks and catalysts, as well as using industrial data, we studied how the content of saturates, aromatics and resins (SAR) in feedstock and the main process variables, including temperature, consumptions of the feedstock, catalyst and slops, influence the formation of catalytic coke. We also determined catalyst deactivation patterns using TG-DTA, N2 adsorption and TPD, which were further used as a basis for a kinetic model of catalytic cracking. This model helps predict the changes in reactions rates caused by coke formation and, also, evaluates quantitatively how group characteristics of the feedstock, the catalyst-to-oil ratio and slop flow influence the coke content on the catalyst and the degree of catalyst deactivation. We defined that a total loss of acidity changes from 8.6 to 30.4 wt% for spent catalysts, and this depends on SAR content in feedstock and process variables. The results show that despite enriching the feedstock by saturates, the highest coke yields (4.6–5.2 wt%) may be produced due to the high content of resins (2.1–3.5 wt%).

Published

2022

40. Deep Functional Profiling of Wild Animal Microbiomes Reveals Probiotic Bacillus pumilus Strains with a Common Biosynthetic Fingerprint

Author

Margarita N. Baranova, Arsen M. Kudzhaev, Yuliana A. Mokrushina, Vladislav V. Babenko, Maria A. Kornienko, Maja V. Malakhova, Victor G. Yudin, Maria P. Rubtsova, Arthur Zalevsky, Olga A. Belozerova, Sergey Kovalchuk, Yuriy N. Zhuravlev, Elena N. Ilina, Alexander G. Gabibov, Ivan V. Smirnov, and Stanislav S. Terekhov

Subjects

ultrahigh-throughput screening, biodiversity, wild animal microbiomes, probiotic discovery, droplet microfluidics, amicoumacin, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The biodiversity of microorganisms is maintained by intricate nets of interactions between competing species. Impaired functionality of human microbiomes correlates with their reduced biodiversity originating from aseptic environmental conditions and antibiotic use. Microbiomes of wild animals are free of these selective pressures. Microbiota provides a protecting shield from invasion by pathogens in the wild, outcompeting their growth in specific ecological niches. We applied ultrahigh-throughput microfluidic technologies for functional profiling of microbiomes of wild animals, including the skin beetle, Siberian lynx, common raccoon dog, and East Siberian brown bear. Single-cell screening of the most efficient killers of the common human pathogen Staphylococcus aureus resulted in repeated isolation of Bacillus pumilus strains. While isolated strains had different phenotypes, all of them displayed a similar set of biosynthetic gene clusters (BGCs) encoding antibiotic amicoumacin, siderophore bacillibactin, and putative analogs of antimicrobials including bacilysin, surfactin, desferrioxamine, and class IId cyclical bacteriocin. Amicoumacin A (Ami) was identified as a major antibacterial metabolite of these strains mediating their antagonistic activity. Genome mining indicates that Ami BGCs with this architecture subdivide into three distinct families, characteristic of the B. pumilus, B. subtilis, and Paenibacillus species. While Ami itself displays mediocre activity against the majority of Gram-negative bacteria, isolated B. pumilus strains efficiently inhibit the growth of both Gram-positive S. aureus and Gram-negative E. coli in coculture. We believe that the expanded antagonistic activity spectrum of Ami-producing B. pumilus can be attributed to the metabolomic profile predetermined by their biosynthetic fingerprint. Ultrahigh-throughput isolation of natural probiotic strains from wild animal microbiomes, as well as their metabolic reprogramming, opens up a new avenue for pathogen control and microbiome remodeling in the food industry, agriculture, and healthcare.

Published

2022

41. STRUCTURE AND COMPOSITION EVOLUTION a-Si/ZrO2 AND a-SiOx/ZrO2 MULTILAYERED NANOPERIODICAL STRUCTURES UNDER HIGH TEMPERATURE ANNEAL

Author

Sergey Yu. Turishchev, Dmitry A. Koyuda, Alexey V. Ershov, Ulii A. Vainer, Tatiana V. Kulikova, Boris L. Agapov, Elena N. Zinchenko, Margarita V. Grechkina, Daria S. Usoltseva, and Vladimir A. Terekhov

Subjects

multilayer nanoperiodal structures, nanocrystals, silicon, silicon oxides, phase composition, X-ray diffraction, atomic force microscopy, scanning electron microscopy., Chemistry, QD1-999

Abstract

With the use of scanning electron microscopy, atomic force microscopy and X-ray diffraction the morphology, composition and structure evolution of a-Si/ZrO2 and a-SiOx/ZrO2 multilayered nanoperiodical structures subjected to high temperature annealing were investigated. Each ZrO2 layers thickness was 2 nm while for a-Si or a-SiOx layers thickness was 8 nm with total number of layers 34 (a-SiO/ZrO2) and 43 (a-SiOx/ZrO2). Annealing was performed for 30 minutes at temperature of 1100 °С. Multilayered nanoperiodical structures have grainy relief with comparable morphology and size characteristics without noticeable dependence on layers interleaving sequence and their composition. 30 minutes anneal at 1100 °С for a-SiOx/ZrO2 multilayered nanoperiodical structures did not transform their surface. Under the same temperature for a-Si/ZrO2 multilayered nanoperiodical structures we observed noticeable changes in samples surface morphology as irregularities formation with 100 nm width and height that exceeds bilayer thickness. By X-ray diffraction technique the presence of thin ZrSi2 silicide layer is demonstrated in a-Si/ZrO2 structures as the result of silicon chemical interaction with zirconium dioxide under high temperature treatment of nanoperiodical multilayers.

Published

2018

42. Fucose Ameliorates Tritrichomonas sp.-Associated Illness in Antibiotic-Treated Muc2−/− Mice

Author

Kseniya M. Achasova, Elena N. Kozhevnikova, Mariya A. Borisova, and Ekaterina A. Litvinova

Subjects

fucose, protozoa, antibiotic, Mucin2, inflammation, microbiome, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The mucus layer in the intestine plays a critical role in regulation of host–microbe interactions and maintaining homeostasis. Disruptions of the mucus layer due to genetic, environmental, or immune factors may lead to inflammatory bowel diseases (IBD). IBD frequently are accompanied with infections, and therefore are treated with antibiotics. Hence, it is important to evaluate risks of antibiotic treatment in individuals with vulnerable gut barrier and chronic inflammation. Mice with a knockout of the Muc2 gene, encoding the main glycoprotein component of the mucus, demonstrate a close contact of the microbes with the gut epithelium which leads to chronic inflammation resembling IBD. Here we demonstrate that the Muc2−/− mice harboring a gut protozoan infection Tritrichomonas sp. are susceptible to an antibiotic-induced depletion of the bacterial microbiota. Suppression of the protozoan infection with efficient metronidazole dosage or L-fucose administration resulted in amelioration of an illness observed in antibiotic-treated Muc2−/− mice. Fucose is a monosaccharide presented abundantly in gut glycoproteins, including Mucin2, and is known to be involved in host–microbe interactions, in particular in microbe adhesion. We suppose that further investigation of the role of fucose in protozoan adhesion to host cells may be of great value.

Published

2021

43. Aggregation Properties of Albumin in Interacting with Magnetic Fluids

Author

Elena N. Velichko, Elina K. Nepomnyashchaya, Maksim A. Baranov, Alexey N. Skvortsov, Ivan V. Pleshakov, and Ge Dong

Subjects

protein–nanoparticle interaction, molecular electronics, magnetic fluid, self-organization, nanoparticle sizing, dynamic light scattering, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In this study, interactions of Fe3O4 magnetic nanoparticles with serum albumin biomolecules in aqueous solutions were considered. The studies were conducted with the laser correlation spectroscopy and optical analysis of dehydrated films. It was shown that the addition of magnetite to an albumin solution at low concentrations of up to 10−6 g/L led to the formation of aggregates with sizes of up to 300 nm in the liquid phase and an increase in the number of spiral structures in the dehydrated films, which indicated an increase in their stability. With a further increase in the magnetite concentration in the solution (from 10−4 g/L), the magnetic particles stuck together and to albumin, thus forming aggregates with sizes larger than 1000 nm. At the same time, the formation of morphological structures in molecular films was disturbed, and a characteristic decrease in their stability occurred. Most stable films were formed at low concentrations of magnetic nanoparticles (less than 10−4 g/L) when small albumin–magnetic nanoparticle aggregates were formed. These results are important for characterizing the interaction processes of biomolecules with magnetic nanoparticles and can be useful for predicting the stability of biomolecular films with the inclusion of magnetite particles.

Published

2021

44. Fat of the Gut: Epithelial Phospholipids in Inflammatory Bowel Diseases

Author

Lidiya V. Boldyreva, Maryana V. Morozova, Snezhanna S. Saydakova, and Elena N. Kozhevnikova

Subjects

IBD, Crohn’s disease, ulcerative colitis, phosphatidylcholine, lysophosphatidylcholine, phosphatidylethanolamine, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Inflammatory bowel diseases (IBD) comprise a distinct set of clinical symptoms resulting from chronic inflammation within the gastrointestinal (GI) tract. Despite the significant progress in understanding the etiology and development of treatment strategies, IBD remain incurable for thousands of patients. Metabolic deregulation is indicative of IBD, including substantial shifts in lipid metabolism. Recent data showed that changes in some phospholipids are very common in IBD patients. For instance, phosphatidylcholine (PC)/phosphatidylethanolamine (PE) and lysophosphatidylcholine (LPC)/PC ratios are associated with the severity of the inflammatory process. Composition of phospholipids also changes upon IBD towards an increase in arachidonic acid and a decrease in linoleic and a-linolenic acid levels. Moreover, an increase in certain phospholipid metabolites, such as lysophosphatidylcholine, sphingosine-1-phosphate and ceramide, can result in enhanced intestinal inflammation, malignancy, apoptosis or necroptosis. Because some phospholipids are associated with pathogenesis of IBD, they may provide a basis for new strategies to treat IBD. Current attempts are aimed at controlling phospholipid and fatty acid levels through the diet or via pharmacological manipulation of lipid metabolism.

Published

2021

45. X-ray Fluorescence Spectroscopy Features of Micro- and Nanoscale Copper and Nickel Particle Compositions

Author

Kristina A. Chebakova, Ella L. Dzidziguri, Elena N. Sidorova, Andrey A. Vasiliev, Dmitriy Yu. Ozherelkov, Ivan A. Pelevin, Alexander A. Gromov, and Anton Yu. Nalivaiko

Subjects

XRF, matrix effect, absorption, nanoparticles, Cu, Ni, Chemistry, QD1-999

Abstract

The study is devoted to X-ray fluorescence spectroscopy (XRF) features of micro- and nanosized powder mixtures of copper and nickel. XRF is a high accuracy method that allows for both qualitative and quantitative analysis. However, the XRF measurement error due to the size of the studied particles is not usually taken into account, which limits the use of the method in some cases, such as analysis of Ni-Cu mixtures and coatings. In this paper, a method for obtaining copper and nickel nanoparticles was investigated, and the XRF of powder compositions was considered in detail. The initial micro- and nanoparticles of copper and nickel were studied in detail using SEM, TEM, XRD, and EDX. Based on experimental data, calibration curves for copper-nickel powder compositions of various sizes were developed. According to the results, it was experimentally established that the calibration curves constructed for nanoscale and microscale powders differ significantly. The presented approach can be expanded for other metals and particle sizes.

Published

2021

46. A Model of Catalytic Cracking: Product Distribution and Catalyst Deactivation Depending on Saturates, Aromatics and Resins Content in Feed

Author

Galina Y. Nazarova, Elena N. Ivashkina, Emiliya D. Ivanchina, Alexander V. Vosmerikov, Ludmila N. Vosmerikova, and Artem V. Antonov

Subjects

vacuum gasoil, residues, coke, catalyst deactivation, kinetics, mathematical model, Chemical technology, TP1-1185, Chemistry, QD1-999

Abstract

The problems of catalyst deactivation and optimization of the mixed feedstock become more relevant when the residues are involved as a catalytic cracking feedstock. Through numerical and experimental studies of catalytic cracking, we optimized the composition of the mixed feedstock in order to minimize the catalyst deactivation by coke. A pure vacuum gasoil increases the yields of the wet gas and the gasoline (56.1 and 24.9 wt%). An increase in the ratio of residues up to 50% reduces the gasoline yield due to the catalyst deactivation by 19.9%. However, this provides a rise in the RON of gasoline and the light gasoil yield by 1.9 units and 1.7 wt% Moreover, the ratio of residue may be less than 50%, since the conversion is limited by the regenerator coke burning ability.

Published

2021

47. Multiplex Autoantibody Detection in Patients with Autoimmune Polyglandular Syndromes

Author

Elena N. Savvateeva, Marina Yu. Yukina, Nurana F. Nuralieva, Marina A. Filippova, Dmitry A. Gryadunov, and Ekaterina A. Troshina

Subjects

autoimmune polyglandular syndrome, autoantibodies, microarray, multiplex assay, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The diagnosis of autoimmune polyglandular syndrome (APS) types 1/2 is difficult due to their rarity and nonspecific clinical manifestations. APS-1 development can be identified with assays for autoantibodies against cytokines, and APS-2 development with organ-specific antibodies. In this study, a microarray-based multiplex assay was proposed for simultaneous detection of both organ-specific (anti-21-OH, anti-GAD-65, anti-IA2, anti-ICA, anti-TG, and anti-TPO) and APS-1-specific (anti-IFN-ω, anti-IFN-α-2a, and anti-IL-22) autoantibodies. Herein, 206 serum samples from adult patients with APS-1, APS-2, isolated autoimmune endocrine pathologies or non-autoimmune endocrine pathologies and from healthy donors were analyzed. The prevalence of autoantibodies differed among the groups of healthy donors and patients with non-, mono- and multi-endocrine diseases. APS-1 patients were characterized by the presence of at least two specific autoantibodies (specificity 99.5%, sensitivity 100%). Furthermore, in 16 of the 18 patients, the APS-1 assay revealed triple positivity for autoantibodies against IFN-ω, IFN-α-2a and IL-22 (specificity 100%, sensitivity 88.9%). No anti-cytokine autoantibodies were found in the group of patients with non-APS-1 polyendocrine autoimmunity. The accuracy of the microarray-based assay compared to ELISA for organ-specific autoantibodies was 88.8–97.6%. This multiplex assay can be part of the strategy for diagnosing and predicting the development of APS.

Published

2021

48. Performance of Sulfide-Driven Fuel Cell Aerated by Venturi Tube Ejector

Author

Venko N. Beschkov, Elena N. Razkazova-Velkova, Martin S. Martinov, and Stefan M. Stefanov

Subjects

sulfide redox processes, fuel cell, aeration, Venturi tube, Chemical technology, TP1-1185, Chemistry, QD1-999

Abstract

Hydrogen sulfide is frequently met in natural waters, like mineral springs, but mostly it is found in marine water with low renewal rate. The Black Sea has extremely high hydrogen sulfide content. It can be utilized in different ways, but the most promising one is direct conversion into electricity. This result can be attained by a sulfide-driven fuel cell (SDFC), converting sulfide to sulfate thus releasing electric energy up to 24 GJ/t. One of the most important problems is the mass transfer limitation on oxygen transfer in the cathode space of the fuel cell. This problem can be solved using a gas diffusion electrode or highly efficient saturation by oxygen in an ejector of the Venturi tube type. This work presents experimental data in laboratory-scale SDFC for sulfide conversion into sulfate, sulfite and polysulfide releasing different amounts of electric energy. Two types of aeration are tested: direct air blow and Venturi-tube ejector. Besides pure graphite, two catalysts, i.e., cobalt spinel and zirconia-doped graphite were tested as anodes. Experiments were carried out at initial sulfide concentrations from 50 to 300 mg/L. Sulfate, sulfite and thiosulfate ions were detected in the outlet solutions from the fuel cell. The electrochemical results show good agreement with the chemical analyses. Most of the results show attained high efficiencies of the fuel cell, i.e., up to 80%. The practical applications of this method can be extended for other purposes, like treatment of polluted water together with utilization as energy.

Published

2021

49. Thermal Inactivation of Butyrylcholinesterase in Starch and Gelatin Gels

Author

Victoria I. Lonshakova-Mukina, Elena N. Esimbekova, and Valentina A. Kratasyuk

Subjects

butyrylcholinesterase, thermal inactivation, enzyme stability, kinetics, starch, gelatin, Chemical technology, TP1-1185, Chemistry, QD1-999

Abstract

The present study demonstrates a simple approach to enhancing thermal stability of butyrylcholinesterase (BChE) by using natural polymers. Analysis of thermal inactivation of the tetrameric BChE in starch and gelatin gels at 50–64 °C showed that thermal inactivation followed second-order kinetics and involved two alternating processes of BChE inactivation, which occurred at different rates (fast and slow processes). The activation enthalpy ΔH# and the activation entropy ΔS# for BChE in starch and gelatin gels were evaluated. The values of ΔH# for the fast and the slow thermal inactivation of BChE in starch gel were 61 ± 3, and 22 ± 2 kcal/mol, respectively, and the values of ΔS# were 136 ± 12 and −2.03 ± 0.05 cal∙K−1∙mol−1, respectively. Likewise, the values of ΔH# for BChE in gelatin gel were 58 ± 6 and 109 ± 11 kcal/mol, and the values of ΔS# were 149 ± 16 and 262 ± 21 cal∙K−1∙mol−1, respectively. The values of the activation parameters obtained in this study suggest that starch gel produced a stronger stabilizing effect on BChE exposed to elevated temperatures over long periods compared with gelatin gel.

Published

2021

50. Boosting Magnetoelectric Effect in Polymer-Based Nanocomposites

Author

Alexander Omelyanchik, Valentina Antipova, Christina Gritsenko, Valeria Kolesnikova, Dmitry Murzin, Yilin Han, Andrei V. Turutin, Ilya V. Kubasov, Alexander M. Kislyuk, Tatiana S. Ilina, Dmitry A. Kiselev, Marina I. Voronova, Mikhail D. Malinkovich, Yuriy N. Parkhomenko, Maxim Silibin, Elena N. Kozlova, Davide Peddis, Kateryna Levada, Liudmila Makarova, Abdulkarim Amirov, and Valeria Rodionova

Subjects

multiferroics, magnetoelectric effect, nanoparticles, cobalt ferrite, barium titanate, PVDF, Chemistry, QD1-999

Abstract

Polymer-based magnetoelectric composite materials have attracted a lot of attention due to their high potential in various types of applications as magnetic field sensors, energy harvesting, and biomedical devices. Current researches are focused on the increase in the efficiency of magnetoelectric transformation. In this work, a new strategy of arrangement of clusters of magnetic nanoparticles by an external magnetic field in PVDF and PFVD-TrFE matrixes is proposed to increase the voltage coefficient (αME) of the magnetoelectric effect. Another strategy is the use of 3-component composites through the inclusion of piezoelectric BaTiO3 particles. Developed strategies allow us to increase the αME value from ~5 mV/cm·Oe for the composite of randomly distributed CoFe2O4 nanoparticles in PVDF matrix to ~18.5 mV/cm·Oe for a composite of magnetic particles in PVDF-TrFE matrix with 5%wt of piezoelectric particles. The applicability of such materials as bioactive surface is demonstrated on neural crest stem cell cultures.

Published

2021