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  • ItemOpen Access
    POLYACRYLONITRILE-POLYVINYL ALCOHOL-BASED COMPOSITE GEL-POLYMER ELECTROLYTE FOR ALL-SOLID-STATE LITHIUM-ION BATTERIES
    (Polymers, 2022) Tleukenov, Yer-Targyn; Kalimuldina, Gulnur; Arinova, Anar; Issatayev, Nurbolat; Bakenov, Zhumabay; Nurpeissova, Arailym
    The three-dimensional (3D) structure of batteries nowadays obtains a lot of attention because it provides the electrodes a vast surface area to accommodate and employ more active material, resulting in a notable increase in areal capacity. However, the integration of polymer electrolytes to complicated three-dimensional structures without defects is appealing. This paper presents the creation of a flawless conformal coating for a distinctive 3D-structured NiO/Ni anode using a simple thermal oxidation technique and a polymer electrolyte consisting of three layers of PAN-(PAN-PVA)-PVA with the addition of Al2O3 nanoparticles as nanofillers. Such a composition with a unique combination of polymers demonstrated superior electrode performance. PAN in the polymer matrix provides mechanical stability and corrosion resistance, while PVA contributes to excellent ionic conductivity. As a result, NiO/Ni@PAN-(PAN-PVA)-PVA with 0.5 wt% Al2O3 NPs configuration demonstrated enhanced cycling stability and superior electrochemical performance, reaching 546 mAh g􀀀1 at a 0.1 C rate.
  • ItemOpen Access
    ANTIMICROBIAL PROPERTIES OF THE TRICLOSAN-LOADED POLYMERIC COMPOSITE BASED ON UNSATURATED POLYESTER RESIN: SYNTHESIS, CHARACTERIZATION AND ACTIVITY
    (Polymers, 2022) Tauanov, Zhandos; Zakiruly, Olzhas; Baimenova, Zhuldyz; Baimenov, Alzhan; Akimbekov, Nuraly S.; Berillo, Dmitriy
    The manufacturing of sanitary and household furniture on a large scale with inherently antimicrobial properties is an essential field of research. This work focuses on the synthesis of polymer composites based on the unsaturated polyester of resin loaded with 5 wt.%-Triclosan produced by a co-mixing approach on automated technological complex with a potential for broad applications. According to findings, the polymer composite has a non-porous structure (surface area < 1.97 m2/g) suitable for sanitary applications to reduce the growth of bacteria. The chemical composition confirmed the presence of major elements, and the inclusion of Triclosan was quantitatively confirmed by the appearance of chlorine on XRF (1.67 wt.%) and EDS (1.62 wt.%) analysis. Thermal analysis showed the difference of 5 wt.% in weight loss, which confirms the loading of Triclosan into the polymer matrix. The polymer composite completely inhibited the strains of S. aureus 6538-P, S. aureus 39, S. epidermidis 12228, and Kl. Pneumoniae 10031 after 5-min contact time. The antimicrobial effects against Kl. pneumoniae 700603, Ps. aeruginosa 9027 and Ps. aeruginosa TA2 strains were 92.7%, 85.8% and 18.4%, respectively. The inhibition activity against C. albicans 10231 and C. albicans 2091 was 1.6% and 82.4%, respectively; while the clinical strain of C. albicans was inhibited by 92.2%. The polymer composite loaded with 5 wt.%-Triclosan displayed a stability over the period that illustrates the possibility of washing the composite surface.
  • ItemOpen Access
    MLO PROTEINS FROM TOMATO (SOLANUM LYCOPERSICUM L.) AND RELATED SPECIES IN THE BROAD PHYLOGENETIC CONTEXT
    (Plants, 2022) Pozharskiy, Alexandr; Kostyukova, Valeriya; Nizamdinova, Gulnaz; Kalendar, Ruslan; Gritsenko, Dilyara
    MLO proteins are a family of transmembrane proteins in land plants that play an important role in plant immunity and host–pathogen interactions, as well as a wide range of development processes. Understanding the evolutionary history of MLO proteins is important for understanding plant physiology and health. In the present work, we conducted a phylogenetic analysis on a large set of MLO protein sequences from publicly available databases, specifically emphasising MLOs from the tomato plant and related species. As a result, 4886 protein sequences were identified and used to construct a phylogenetic tree. In comparison to previous findings, we identified nine phylogenetic clades, revealed the internal structure of clades I and II as additional clades and showed the presence of monocotyledon species in all MLO clades. We identified a set of 19 protein motifs that allowed for the identification of particular clades. Sixteen SlMLO proteins from tomato were located in the phylogenetic tree and identified in relation to homologous sequences from other Solanaceae species. The obtained results could be useful for further work on the use of MLO proteins in the study of mildew resistance in Solanaceae and other plant families
  • ItemOpen Access
    CORRECTION: RAMAKRISHNAN ET AL. THE DYNAMISM OF TRANSPOSON METHYLATION FOR PLANT DEVELOPMENT AND STRESS ADAPTATION. INT. J. MOL. SCI. 2021, 22, 11387
    (International Journal o f Molecular Sciences, 2022) Ramakrishnan, Muthusamy; Satish, Lakkakula; Kalendar, Ruslan; Narayanan, Mathiyazhagan; Kandasamy, Sabariswaran; Sharma, Anket; Emamverdian, Abolghassem; Wei, Qiang; Zhou, Mingbing
    The authors would like to make the following corrections to the original publication [1]. In the original publication, the copyright transfer information for the original illustrations and tables was overlooked. Therefore, the correct legends for the original figures and tables are provided below. The copyright permissions for the figures and tables are also included as Supplemental Files S1–S5. The reference numbers match the reference numbers in the original publication. The authors state that the scientific conclusions are unaffected. This correction has been approved by the Academic Editor, and the original publication has also been updated.
  • ItemOpen Access
    ANCIENT COMPONENTS AND RECENT EXPANSION IN THE EURASIAN HEARTLAND: INSIGHTS INTO THE REVISED PHYLOGENY OF Y-CHROMOSOMES FROM CENTRAL ASIA
    (Genes, 2022) Zhabagin, Maxat; Wei, Lan-Hai; Sabitov, Zhaxylyk; Ma, Peng-Cheng; Sun, Jin; Dyussenova, Zhanargul; Balanovska, Elena; Li, Hui; Ramankulov, Yerlan
    In the past two decades, studies of Y chromosomal single nucleotide polymorphisms (YSNPs) and short tandem repeats (Y-STRs) have shed light on the demographic history of Central Asia, the heartland of Eurasia. However, complex patterns of migration and admixture have complicated population genetic studies in Central Asia. Here, we sequenced and analyzed the Y-chromosomes of 187 male individuals from Kazakh, Kyrgyz, Uzbek, Karakalpak, Hazara, Karluk, Tajik, Uyghur, Dungan, and Turkmen populations. High diversity and admixture from peripheral areas of Eurasia were observed among the paternal gene pool of these populations. This general pattern can be largely attributed to the activities of ancient people in four periods, including the Neolithic farmers, Indo-Europeans, Turks, and Mongols. Most importantly, we detected the consistent expansion of many minor lineages over the past thousand years, which may correspond directly to the formation of modern populations in these regions. The newly discovered sub-lineages and variants provide a basis for further studies of the contributions of minor lineages to the formation of modern populations in Central Asia.
  • ItemOpen Access
    WHOLE-EXOME SEQUENCING REVEALS PATHOGENIC SIRT1 VARIANT IN BRAIN ARTERIOVENOUS MALFORMATION: A CASE REPORT
    (Genes, 2022) Mukhtarova, Kymbat; Zholdybayeva, Elena; Kairov, Ulykbek; Akhmetollayev, Ilyas; Nurimanov, Chingiz; Kulmirzayev, Marat; Makhambetov, Yerbol; Ramankulov, Yerlan
    Arteriovenous malformations of the brain (bAVMs) are plexuses of pathological arteries and veins that lack a normal capillary system between them. Intracranial hemorrhage (hemorrhagic stroke) is the most frequent clinical manifestation of AVM, leading to lethal outcomes that are especially high among children and young people. Recently, high-throughput genome sequencing methods have made a notable contribution to the research progress in this subject. In particular, whole-exome sequencing (WES) methods allow the identification of novel mutations. However, the genetic mechanism causing AVM is still unclear. Therefore, the aim of this study was to investigate the potential genetic mechanism underlying AVM.We analyzed the WES data of blood and tissue samples of a 30-year-old Central Asian male diagnosed with AVM. We identified 54 polymorphisms in 43 genes. After in-silica overrepresentation enrichment analysis of the polymorphisms, the SIRT1 gene variant (g.67884831C>T) indicated a possible molecular mechanism of bAVM. Further studies are required to evaluate the functional impact of SIRT1 g.67884831C>T, which may warrant further replication and biological investigations related to sporadic bAVM.
  • ItemOpen Access
    GENE POLYMORPHISM AND TOTAL GENETIC SCORE IN MARTIAL ARTS ATHLETES WITH DIFFERENT ATHLETIC QUALIFICATIONS
    (Genes, 2022) Vostrikova, Anna; Pechenkina, Victoria; Danilova, Maria; Boronnikova, Svetlana; Kalendar, Ruslan
    The personalized approach in sports genetics implies considering the allelic variants of genes in polymorphic loci when adjusting the training process of athletes. The personalized approach is used both in sports genetics and in medicine to identify the influence of genotype on the manifestations of human physical qualities that allow to achieve high sports results or to assess the impact of genotype on the development and course of diseases. The impact of genes of the renin-angiotensin and kinin-bradykinin systems in the development of cardiovascular disease in athletes has not been defined. This study aims to determine the polymorphisms of four genes (ACE, BDKRB2, PPARGC1A and NOS3) and the total genetic score to reveal the predisposition to the formation of physical qualities in martial arts athletes with different athletic abilities. The products of these four genes are involved in the control of blood pressure. The allelic variants of these genes are associated with the development of the physical quality “endurance” and have an indirect influence on the formation of speed and power qualities. The total genetic score (TGS: from 0 to 100 arbitrary units) was calculated from the genotype score in each polymorphism. The athletes were divided into Group I with high and Group II with low qualifications depending on their sports success. Single nucleotide polymorphisms (SNPs) are identified through restriction endonucleases cleavage for PCR amplicons for discriminating between alleles of the target genes ACE (rs4646994), BDKRB2 (rs5810761), PPARGC1A (rs8192673) and NOS3 (rs1799983). Significant differences between the allelic variants of target genes and athletic ability were found between Group I and Group II for genotype G/G of NOS3 gene and genotypes Gly/Gly and Gly/Ser of PPARGC1A gene. The data obtained confirm that athletes with unfavourable genotypes are excluded in the screening phase because their endurance is not fully developed to the required level in martial arts. Martial arts athletes with the highest TGS have the highest skill level. Polymorphic loci of four genes whose products are involved in blood pressure control (ACE, BDKRB2, NOS3 and PPARGC1A) can be used in martial arts not only to determine predisposition to cardiovascular disease but also to predispose to the development of speed and power qualities and endurance. The total genetic score can serve as a tool for predicting athletic success
  • ItemOpen Access
    GENETIC STRUCTURE OF PINUS POPULATIONS IN THE URALS
    (Forests, 2022) Chertov, Nikita; Nechaeva, Yulia; Zhulanov, Andrei; Pystogova, Nina; Danilova, Maria; Boronnikova, Svetlana; Kalendar, Ruslan
    The sustainable use and conservation of forest resources must be carried out with a detailed study of the main forest-forming plant species. Coniferous forests form the basis of boreal forest ecosystems and are of great economic importance. Representatives of forest-forming boreal coniferous species are species of the genus Pinus, including Siberian pine (Pinus sibirica Du Tour) and Scots pine (Pinus sylvestris L.), which are valuable and widely used woody plant species. The purpose of this research was to conduct an extended study of genetic diversity, genetic structure, and differentiation of P. sibirica and P. sylvestris populations under the conditions of their habitat in the Middle and Northern Urals. We studied twelve populations of two Pinus species using the inter-simple sequence repeat (ISSR)-based DNA polymorphism detection PCR method. Populations are characterized by relatively high levels of genetic diversity (P. sylvestris: He = 0.163; ne = 1.270; I = 0.249; P. sibirica: He = 0.148; ne = 1.248; I = 0.225). Analysis of the intrapopulation genetic structure reveals that the studied populations are highly differentiated (P. sylvestris: GST = 0.362; P. sibirica: GST = 0.460). The interpopulation component comprised 36% and 46% of the total genetic diversity for P. sylvestris and P. sibirica, respectively. Using various algorithms to determine the spatial genetic structure, it was determined that P. sylvestris populations form two groups according to their location at a certain altitude above sea level. P. sibirica populations form two clusters, with an additional subdivision of the two populations into subclusters identified. The data obtained during the study may be useful for further research as well as for conservation management planning and related forestry practices aimed at preserving the genetic resources of valuable forest plant species.
  • ItemOpen Access
    EFFECTIVENESS OF BIO-WASTE-DERIVED CARBON DOPING ON DE-ICING PERFORMANCE OF AN ELECTRICALLY RESISTANT CONCRETE
    (Coatings, 2022) Bakbolat, Baglan; Daulbayev, Chingis; Sultanov, Fail; Taurbekov, Azamat; Tolynbekov, Aidos; Yeleuov, Mukhtar; Korobeinyk, Alina V.; Mansurov, Zulkhair
    This paper proposes a modified carbon-based concrete filler composition, which can potentially be used as a self-de-icing pavement. Carbon fibers (CNFs), graphene-like porous carbon (GLC), and a CNF/GLC composite were developed to reinforce concrete with the aim to improve its electrical conductivity and mechanical properties. The effect of the CNF and GLC loadings on the electrical conductivity of the filled concrete was evaluated in a climatic chamber at temperatures simulating water-freezing conditions on a concrete road. The results show that even a negligible loading (0.2 wt.%) of concrete with CNF/GLC results in a dramatic decrease in its resistance when compared to the same loadings for CNF and GLC added separately. Depending on the number of fillers, the temperature of the modified concrete samples reached up to +19.8 °C at low voltage (10 V) at −10 °C, demonstrating the perspective of their heat output for anti-icing applications. Additionally, this study shows that adding 2.0 wt.% of the CNF/GLC composite to the concrete improves its compressive strength by 33.93% compared to the unmodified concrete.
  • ItemOpen Access
    SUPERHYDROPHOBIC SIO2/TRIMETHYLCHLOROSILANE COATING FOR SELF-CLEANING APPLICATION OF CONSTRUCTION MATERIALS
    (Coatings, 2022) Kurbanova, Aliya; Myrzakhmetova, Nurbala; Akimbayeva, Nazgul; Kishibayev, Kazhmukhan; Nurbekova, Marzhan; Kanagat, Yernar; Tursynova, Arailym; Zhunussova, Tomiris; Seralin, Aidar; Kudaibergenova, Rabiga; Toktarbay, Zhexenbek; Toktarbaiuly, Olzat
    This study has demonstrated, for the first time, the potential application of coatings to protect bricks or architectures against detrimental atmospheric effects via a self-cleaning approach. In this research, a facile fabrication method was developed to produce amorphous SiO2 particles and their hierarchical structures via applying trimethylchlorosilane (TMCS). They were fully characterized by various surface analytic tools, including a goniometer, SEM, AFM, zeta sizer, and a spectroscopic technique (FTIR), and then applied as super hydrophobic coatings on glass and sand. The characterization results revealed that the SiO2 particles are amorphous, quasi-spherical particles with an average diameter of 250–300 nm, and the hierarchical structures in the film were assembled from building blocks of SiO2 and TMCS. The wettability of the films can be controlled by changing the pH of the SiO2/TCMS dispersion. A super hydrophobic surface with a water contact angle of 165° ± 1° was achieved at the isoelectric point of the films. The obtained translucent super hydrophobic SiO2/TMCS coatings show good self-cleaning performances for glass and sand as construction materials. This study indicated that the superhydrophobic coatings may have potential applications in the protection of buildings and construction architectures in the future.
  • ItemOpen Access
    BIODICA: A COMPUTATIONAL ENVIRONMENT FOR INDEPENDENT COMPONENT ANALYSIS OF OMICS DATA
    (Bioinformatics, 2022) Captier, Nicolas; Merlevede, Jane; Molkenov, Askhat; Seisenova, Ainur; Zhubanchaliyev, Altynbek; Nazarov, Petr V; Barillot, Emmanuel; Kairov, Ulykbek; Zinovyev, Andrei
    We developed BIODICA, an integrated computational environment for application of independent component analysis (ICA) to bulk and single-cell molecular profiles, interpretation of the results in terms of biological functions and correlation with metadata. The computational core is the novel Python package stabilized-ica which provides interface to several ICA algorithms, a stabilization procedure, meta-analysis and component interpretation tools. BIODICA is equipped with a user-friendly graphical user interface, allowing non-experienced users to perform the ICA-based omics data analysis. The results are provided in interactive ways, thus facilitating communication with biology experts.
  • ItemOpen Access
    PREPARATION OF A NI3SN2 ALLOY-TYPE ANODE EMBEDDED IN CARBON NANOFIBERS BY ELECTROSPINNING FOR LITHIUM-ION BATTERIES
    (RSC Advances, 2022) Ibadulla, Nurbol; Belgibayeva, Ayaulym; Nurpeissova, Arailym; Bakenov, Zhumabay; Kalimuldina, Gulnur
    A pure-phase Ni3Sn2 intermetallic alloy encapsulated in a carbon nanofiber matrix (Ni3Sn2@CNF) was successfully prepared by electrospinning and applied as anode for lithium-ion batteries. The physical and electrochemical properties of the Ni3Sn2@CNF were compared to that of pure CNF. The resultant Ni3Sn2@CNF anode produced a high initial discharge capacity of ∼1300 mA h g−1, later stabilizing and retaining ∼350 mA h g−1 (vs. 133 mA h g−1 for CNF) after 100 cycles at 0.1C. Furthermore, even at a high current density of 1C, it delivered a high initial discharge capacity of ∼1000 mA h g−1, retaining ∼313 mA h g−1 (vs. 66 mA h g−1 for CNF) at the 200th cycle. The superior electrochemical properties of the Ni3Sn2@CNF over CNF were attributed to the presence of electrochemically active Sn and decreased charge-transfer resistance with the alloy encapsulation, as confirmed from cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS) results. Finally, post-mortem field-emission scanning electron microscopy (FE-SEM) images proved the preservation of the carbon nanofibers and the alloy after cycling, confirming the successful accommodation of the volume changes during the alloying/dealloying reactions of Sn in the Ni3Sn2@CNF.
  • ItemOpen Access
    PHOTO CROSSLINKED LIGNIN/PAN ELECTROSPUN SEPARATOR FOR SAFE LITHIUM ION BATTERIES
    (Scientific Reports, 2022) Yerkinbekova, Yerkezhan; Kalybekkyzy, Sandugash; Tolganbek, Nurbol; Kahraman, Memet Vezir; Bakenov, Zhumabay; Mentbayeva, Almagul
    A novel crosslinked electrospun nanofibrous membrane with maleated lignin (ML) and poly(acrylonitrile) (PAN) is presented as a separator for lithium-ion batteries (LIBs). Alkali lignin was treated with an esterification agent of maleic anhydride, resulting in a substantial hydroxyl group conversion to enhance the reactivity and mechanical properties of the final nanofiber membranes. The maleated lignin (ML) was subsequently mixed with UV-curable formulations (up to 30% wt) containing polyethylene glycol diacrylate (PEGDA), hydrolyzed 3-(Trimethoxysilyl)propyl methacrylate (HMEMO) as crosslinkers, and poly(acrylonitrile) (PAN) as a precursor polymer. UV-electrospinning was used to fabricate PAN/ML/HMEMO/PEGDA (PMHP) crosslinked membranes. PMHP membranes made of electrospun nanofibers feature a three-dimensional (3D) porous structure with interconnected voids between the fibers. The mechanical strength of PMHP membranes with a thickness of 25 µm was enhanced by the variation of the cross-linkable formulations. The cell assembled with PMHP2 membrane (20 wt% of ML) showed the maximum ionic conductivity value of 2.79*10−3 S cm−1, which is significantly higher than that of the same cell with the liquid electrolyte and commercial Celgard 2400 (6.5*10−4 S cm−1). The enhanced LIB efficiency with PMHP2 membrane can be attributed to its high porosity, which allows better electrolyte uptake and demonstrates higher ionic conductivity. As a result, the cell assembled with LiFePO4 cathode, Li metal anode, and PMHP2 membrane had a high initial discharge specific capacity of 147 mAh g−1 at 0.1 C and exhibited outstanding rate performance. Also, it effectively limits the formation of Li dendrites over 1000 h. PMHP separators have improved chemical and physical properties, including porosity, thermal, mechanical, and electrochemical characteristics, compared with the commercial ones.
  • ItemOpen Access
    SPUTNIK-V REACTOGENICITY AND IMMUNOGENICITY IN THE BLOOD AND MUCOSA: A PROSPECTIVE COHORT STUDY
    (Scientific Reports, 2022) Yegorov, Sergey; Kadyrova, Irina; Negmetzhanov, Baurzhan; Kolesnikova, Yevgeniya; Kolesnichenko, Svetlana; Korshukov, Ilya; Baiken, Yeldar; Matkarimov, Bakhyt; Miller, Matthew S.
    Sputnik-V (Gam-COVID-Vac) is a heterologous, recombinant adenoviral (rAdv) vector-based, COVID- 19 vaccine now used in > 70 countries. Yet there is a shortage of data on this vaccine’s performance in diverse populations. Here, we performed a prospective cohort study to assess the reactogenicity and immunologic outcomes of Sputnik-V vaccination in Kazakhstan. COVID-19-free participants (n = 82 at baseline) were followed at day 21 after Sputnik-V dose 1 (rAd5) and dose 2 (rAd26). Self-reported local and systemic adverse events were captured using questionnaires. Blood and nasopharyngeal swabs were collected to perform SARS-CoV-2 diagnostic and immunologic assays. We observed that most of the reported adverse events were mild-to-moderate injection site or systemic reactions, no severe or potentially life-threatening conditions were reported, and dose 1 appeared to be more reactogenic than dose 2. The seroconversion rate was 97% post-dose 1, remaining the same post-dose 2. The proportion of participants with detectable virus neutralization was 83% post-dose 1, increasing to 98% post-dose 2, with the largest relative increase observed in participants without prior COVID- 19 exposure. Dose 1 boosted nasal S-IgG and S-IgA, while the boosting effect of dose 2 on mucosal S-IgG, but not S-IgA, was only observed in subjects without prior COVID-19. Systemically, vaccination reduced serum levels of growth regulated oncogene (GRO), which correlated with an elevation in blood platelet count. Overall, Sputnik-V dose 1 elicited both blood and mucosal SARS-CoV-2 immunity, while the immune boosting effect of dose 2 was minimal. Thus, adjustments to the current vaccine dosing regimen are necessary to optimize immunization efficacy and cost-effectiveness. While Sputnik-V reactogenicity is similar to that of other COVID-19 vaccines, the induced alterations to the GRO/platelet axis warrant investigation of the vaccine’s effects on systemic immunology.
  • ItemOpen Access
    EXPERIMENTAL AND MODELING STUDIES OF SR2+ AND CS+ SORPTION ON CRYOGELS AND COMPARISON TO COMMERCIAL ADSORBENTS
    (Industrial & Engineering Chemistry Research, 2022) Baimenov, Alzhan; Montagnaro, Fabio; Inglezakis, Vassilis J.; Balsamo, Marco
    In this work, two cryogels with the key monomers methacrylic acid and 2-acrylamido-2-methyl-1-propansulfonic acid (named AAC and SAC, respectively) with various functional groups were used as adsorbents for the removal of cesium and strontium ions from aqueous solutions. Kinetics, equilibrium, and column studies were carried out including experiments in different water matrices (ultrapure, tap, and river water) and comparison to commercial adsorbents. AAC reached sorption capacity of 362 mg g−1 for Cs+ and 209 mg g−1 for Sr2+, whereas SAC polymer showed maximum removal capacities of 259 and 211 mg g−1 for Cs+ and Sr2+, respectively. The five cycles of adsorption/desorption experiments showed a maximum of 8% loss of effectiveness for both cryogels. Batch kinetics adsorption data were modeled by using a rigorous diffusional model coupled to a novel fractal-like expression for variable surface diffusivity. The model revealed that the surface diffusivity dependence on time is nonmonotonic, with the occurrence of a maximum. Also, both fluid film and intraparticle transport resistances were shown to be important, with the internal one being more influential. The cryogels and two commercial materials (ion-exchange resin and zeolite) were tested for the removal of Cs+ and Sr2+ in ultrapure, tap, and river water; the results showed that the cryogels exhibit competitive effectiveness.
  • ItemOpen Access
    SCREENING A COLLECTION OF LOCAL AND FOREIGN VARIETIES OF SOLANUM LYCOPERSICUM L. IN KAZAKHSTAN FOR GENETIC MARKERS OF RESISTANCE AGAINST THREE TOMATO VIRUSES
    (Heliyon, 2022) Pozharskiy, Alexandr; Kostyukova, Valeriya; Taskuzhina, Aisha; Nizamdinova, Gulnaz; Kisselyova, Nina; Kalendar, Ruslan; Karimov, Nurlybek; Gritsenko, Dilyara
    The tomato is one of the most important vegetable crops. The successful development of tomato cultures in Kazakhstan depends on the implementation of intensive agricultural methods, including breeding and selecting for new tomato varieties resistant to plant pathogens. Common tomato viruses, although not detected in our country to date, may potentially have a deleterious impact on agriculture if allowed to spread. The implementation of tomato breeding programs based on molecular markers of resistance is therefore an important preventive measure for protecting the agriculture and food safety of Kazakhstan. In the present work, we used nine molecular markers associated with resistance to three tomato viruses, i.e., tomato mosaic virus (ToMV), tomato spot wilt virus (TSWV), and tomato yellow leaf curl virus (TYLCV), to test the local breeding collection for the presence of genetic resistance factors. Two tomato varieties, ‘Zhiraf’ (Russia) and ‘Sunnik’ (Armenia), were revealed to possess the resistant allele marker PrRuG86-151 against ToMV; three hybrid forms had the same allele in the heterozygous state. One hybrid, based on the ‘Mirsini’ F1 variety from the Netherlands, had resistance to TSWV, which was confirmed by four markers: NCSw003, NCSw007, NCSw011, and NCSw012. Two cultivars, ‘Nicola’ and ‘Malinovyi Slon’ (Russia), and the local hybrid based on ‘Yarkiy Rumyanets’ had two to three resistant alleles of markers based on locus Tm-3 of resistance to TYLCV. The obtained results have demonstrated that the collection of tomato varieties involved in breeding programs in Kazakhstan lacks well-known genetic resistance factors to the considered tomato viruses. Thus, the prospective breeding programs require introduction of known resistant genetic resources to establish resistance to viruses using marker-assisted selection.
  • ItemOpen Access
    RECENT ADVANCES AND CHALLENGES OF CURRENT COLLECTORS FOR SUPERCAPACITORS
    (Electrochemistry Communications, 2022) Abdisattar, Alisher; Yeleuov, Mukhtar; Daulbayev, Chingis; Askaruly, Kydyr; Tolynbekov, Aidos; Taurbekov, Azamat; Prikhodko, Nikolay
    Global energy and environmental issues are driving the development of modern advances in efficient and environmentally friendly energy storage systems. Such systems must meet a range of requirements, which include high energy and power density, long service life, flexibility, industrial scalability, security and reliability. Progressive achievements in the field of energy storage are associated with the development of various kinds of batteries and supercapacitors. Supercapacitors are state-of-the-art energy storage devices with high power density, long lifespan, and the ability to bridge the power/energy gap between conventional capacitors and batteries/fuel cells. However, supercapacitors have limitations associated with low energy density, which can be solved by using various types of current collectors, since current collectors are one of the main massive components of supercapacitors. This review gives a complete understanding of the effect of current collectors on the actual performance and properties of supercapacitors. We reviewed current collectors based on carbon and metal-containing materials, and supercapacitor configurations to identify possible improvements in electrochemical performance in terms of specific capacitance, energy density, power density, service life and variability in their application.
  • ItemOpen Access
    ASSOCIATION OF GENETIC POLYMORPHISMS WITH COMPLICATIONS OF IMPLANTED LVAD DEVICES IN PATIENTS WITH CONGESTIVE HEART FAILURE: A KAZAKHSTANI STUDY
    (Journal of Personalized Medicine, 2022-05-04) Zhalbinova, Madina R.; Rakhimova, Saule E.; Kozhamkulov, Ulan A.; Akilzhanova, Gulbanu A.; Kaussova, Galina K.; Akilzhanov, Kenes R.; Pya, Yuriy V.; Lee, Joseph H.; Bekbossynova, Makhabbat S.; Akilzhanova, Ainur R.
    The left ventricular assist device (LVAD) is one of the alternative treatments for heart failure (HF) patients. However, LVAD support is followed by thrombosis, and bleeding complications which are caused by high non-physiologic shear stress and antithrombotic/anticoagulant therapy. A high risk of complications occurs in the presence of the genotype polymorphisms which are involved in the coagulation system, hemostasis function and in the metabolism of the therapy. The aim of the study was to investigate the influence of single-nucleotide polymorphisms (SNP) in HF patients with LVAD complications. We analyzed 21 SNPs in HF patients (n = 98) with/without complications, and healthy controls (n = 95). SNPs rs9934438; rs9923231 in VKORC1, rs5918 in ITGB3 and rs2070959 in UGT1A6 demonstrated significant association with HF patients’ complications (OR (95% CI): 3.96 (1.42–11.02), p = 0.0057), (OR (95% CI): 3.55 (1.28–9.86), p = 0.011), (OR (95% CI): 5.37 (1.79–16.16), p = 0.0056) and OR (95% CI): 4.40 (1.06–18.20), p = 0.044]. Genotype polymorphisms could help to predict complications at pre- and post-LVAD implantation period, which will reduce mortality rate. Our research showed that patients can receive treatment with warfarin and aspirin with a personalized dosage and LVAD complications can be predicted by reference to their genotype polymorphisms in VKORC1, ITGB3 and UGT1A6 genes.
  • ItemOpen Access
    HIGH SARS-COV-2 SEROPREVALENCE IN KARAGANDA, KAZAKHSTAN BEFORE THE LAUNCH OF COVID-19 VACCINATION
    (PLOS ONE, 2022-07-27) Kadyrova, Irina; Yegorov, Sergey; Negmetzhanov, Baurzhan; Kolesnikova, Yevgeniya; Kolesnichenko, Svetlana; Korshukov, Ilya; Akhmaltdinova, Lyudmila; Vazenmiller, Dmitriy; Stupina, Yelena; Kabildina, Naylya; Ashimova, Assem; Raimbekova, Aigul; Turmukhambetova, Anar; Miller, Matthew S.; Hortelano, Gonzalo; Babenko, Dmitriy
    COVID-19 exposure in Central Asia appears underestimated and SARS-CoV-2 seroprevalence data are urgently needed to inform ongoing vaccination efforts and other strategies to mitigate the regional pandemic. Here, in a pilot serologic study we assessed the prevalence of SARS-CoV-2 antibody-mediated immunity in a multi-ethnic cohort of public university employees in Karaganda, Kazakhstan. Asymptomatic subjects (n = 100) were recruited prior to their first COVID-19 vaccination. Questionnaires were administered to capture a range of demographic and clinical characteristics. Nasopharyngeal swabs were collected for SARS-CoV-2 RT-qPCR testing. Serological assays were performed to detect spike (S)- reactive IgG and IgA and to assess virus neutralization. Pre-pandemic samples were used to validate the assay positivity thresholds. S-IgG and -IgA seropositivity rates among SARSCoV- 2 PCR-negative participants (n = 100) were 42% (95% CI [32.2–52.3]) and 59% (95% CI [48.8–69.0]), respectively, and 64% (95% CI [53.4–73.1]) of the cohort tested positive for at least one of the antibodies. S-IgG titres correlated with virus neutralization activity, detectable in 49% of the tested subset with prior COVID-19 history. Serologically confirmed history of COVID-19 was associated with Kazakh ethnicity, but not with other ethnic minorities present in the cohort, and self-reported history of respiratory illness since March 2020. Overall, SARS-CoV-2 exposure in this cohort was ~15-fold higher compared to the reported all-time national and regional COVID-19 prevalence, consistent with recent studies of excess infection and death in Kazakhstan. Continuous serological surveillance provides important insights into COVID-19 transmission dynamics and may be used to better inform the regional public health response.
  • ItemOpen Access
    CYTOPROTECTIVE ACTIVITY OF NEWLY SYNTHESIZED 3-(ARYLMETHYLAMINO)-6-METHYL-4-PHENYLPYRIDIN-2(1H)-ONES DERIVATIVES
    (Molecules, 2022-08-23) Sergazy, Shynggys; Shulgau, Zarina; Zhulikeyeva, Aigerim; Ramankulov, Yerlan; Palamarchuk, Irina V.; Kulakov, Ivan V.
    Currently, studies are being conducted on the possible role of the cytoprotective effect of biologically active substances in conditions of cerebral hypoxia or cardiomyopathies. At the same time, oxidative stress is considered one of the important mechanisms of cellular cytotoxicity and a target for the action of cytoprotectors. The aim of this study is to search for derivatives of 3-(arylmethylamino)-6-methyl-4-phenylpyridin-2(1H)-ones. The probability of cytoprotective action was assessed by measuring cell viability using two tests (with neutral red dye and MTT test). It was found that some derivatives of 3-(arylmethylamino)-6-methyl-4-phenylpyridin-2(1H)-ones under the conditions of our experiment had a pronounced cytoprotective activity, providing better cell survival in vitro, including the MTT test and conditions of blood hyperviscosity. To correlate the obtained results in vitro, molecular docking of the synthesized derivatives was also carried out. The standard drug omeprazole (co-crystallized with the enzyme) was used as a standard. It was shown that all synthesized derivatives of 3-(arylmethylamino)-6-methyl-4-phenylpyridin-2(1H)-ones had higher affinity for the selected protein than the standard gastro-cytoprotector omeprazole. The studied derivatives of 3-(arylmethylamino)-6-methyl-4-phenylpyridin-2(1H)-ones also fully satisfy Lipinski’s rule of five (RO5), which increases their chances for possible use as orally active drugs with good absorption ability and moderate lipophilicity. Thus, the results obtained make it possible to evaluate derivatives of 3-(arylmethylamino)-6-methyl-4-phenylpyridin-2(1H)-ones as having a relatively high cytoprotective potential.