Патологии метаподий древних копытных

This report describes pathological changes of twelve metapodial bones of ancient large ungulates (Bison priscus, Cervus elaphus, Megaloceros giganteus, Equus ex gr. gallicus) from various sites in West Siberia. Two basic types of deteriorations were observed: proximal epiphyseal deformity resulting from arthrosis, and periosteal proliferations on diaphysis. All of these likely are related to trauma. The most probable causes of the injuries include unsuccessful hunting activity of cave lions and environment-associated sharp or blunt force

Nontoxic antimicrobial micellar systems based on mono- and di-cationic Dabco-surfactants and furazolidone: Structure-solubilization properties relationships

Supplementary data to this article can be found online at https://doi.org/10.1016/j.molliq.2019.112062.Self-assembly and solubilization properties of amphiphilic mono- and bisquaternized derivatives of 1,4-diazabicyclo[2.2.2]octane (mono-CS-n and di-CS-n, where CS cationic surfactant, n=12, 14, 16, 18) was investigated by nuclear magnetic resonance with magnetic field pulse gradient. The influence of Dabco-surfactant structure (head group and length of alkyl chains) on critical micelle concentration and aggregation number of micelles was studied. The CMC of mono-CS-n are lower than CMC of di-CS-n. The aggregation numbers of mono-CS-n micelles are higher than for di-CS-n micelles. The solubilization capacity of mono-CS-n is higher than di-CS-n. The solubilization capacity of mono-CS-16 is 2.5 times higher than CTAB in the case of Orange OT as a solute, and it is close to CTAB in the case of Sudan I. The solubility of a poorly water-soluble antibacterial drug furazolidone was improved by micellar solubilization based on mono- and di-Dabco-surfactants. Mono-CS-n is the best solubilizing agents toward furazolidone. The use of mixed composition mono-Dabco-16-furazolidone provides a significant increase in antimicrobial activity (2 times against bacteria and 8 times against fungi) and reduces 2 times the dose of each of the components in combination formulation and causes <2% haemolysis of human red blood cells at the active dose.The report study was funded by Russian Foundation for Basic Research according to the research project № 18-43-160015. The authors gratefully acknowledge the CSF-SAC FRC KSC RAS.info:eu-repo/semantics/publishedVersio

Exploring Visual Culture of COVID-19 Memes: Russian and Chinese Perspectives

The article explores COVID-19 related Internet memes and treats them as samples of creolized text in a study of the way ethnic and cultural peculiarities of memes are perceived by representatives of two radically different cultural paradigms: the Russians and Chinese. A survey is used as a method of the investigation. Russian and Chinese students, and visual arts experts evaluated Russian and Chinese COVID-19 memes according to several criteria concerning their content, verbal constituent element and visual characteristics. The study concluded that the social and culture-specific components mostly contribute to forming the opinion of the meme and its appreciation. Awareness of both the cultural background and the current social and nation-specific situation is required to decode a full amount of information contained in a meme. Equally important is the visual component in understanding the meme. Thus, the study contributes not only to studying event-specific memes but also broadens the scope of research on memes as a sample of visual culture

Synthesis of Novel 2-(Het)arylpyrrolidine Derivatives and Evaluation of Their Anticancer and Anti-Biofilm Activity

A library of novel 2-(het)arylpyrrolidine-1-carboxamides were obtained via a modular approach based on the intramolecular cyclization/Mannich-type reaction of N-(4,4-diethoxybutyl)ureas. Their anti-cancer activities both in vitro and in vivo were tested. The in vitro activity of some compounds towards M-Hela tumor cell lines was twice that of the reference drug tamoxifen, whereas cytotoxicity towards normal Chang liver cell did not exceed the tamoxifen toxicity. In vivo studies showed that the number of surviving animals on day 60 of observation was up to 83% and increased life span (ILS) was up to 447%. Additionally, some pyrrolidine-1-carboxamides possessing a benzofuroxan moiety obtained were found to effectively suppress bacterial biofilm growth. Thus, these compounds are promising candidates for further development both as anti-cancer and anti-bacterial agents

ROS-generation and cellular uptake behavior of amino-silica nanoparticles arisen from their uploading by both iron-oxides and hexamolybdenum clusters

The present work introduces combination of superparamagnetic iron oxides (SPIONs) and hexamolybdenum cluster ([{Mo6I8}I6]2−) units within amino-decorated silica nanoparticles (SNs) as promising design of the hybrid SNs as efficient cellular contrast and therapeutic agents. The heating generated by SNs doped with SPIONs (Fe3O4@SNs) under alternating magnetic field is characterized by high specific absorption rate (SAR = 446 W/g). The cluster units deposition onto both Fe3O4@SNs and “empty” silica nanoparticles (SNs) results in Fe3O4@SNs[{Mo6I8}I6] and SNs[{Mo6I8}I6] with red cluster-centered luminescence and ability to generate reactive oxygen species (ROS) under the irradiation. The monitoring of spin-trapped ROS by ESR spectroscopy technique indicates that the ROS-generation decreases in time for SNs[{Mo6I8}I6] and [{Mo6I8}I6]2− in aqueous solutions, while it remains constant for Fe3O4@SNs[{Mo6I8}I6]. The cytotoxicity is low for both Fe3O4@SNs[{Mo6I8}I6] and SNs[{Mo6I8}I6], while the flow cytometry indicates preferable cellular uptake of the former versus the latter type of the nanoparticles. Moreover, entering into nucleus along with cytoplasm differentiates the intracellular distribution of Fe3O4@SNs[{Mo6I8}I6] from that of SNs[{Mo6I8}I6], which remain in the cell cytoplasm only. The exceptional behavior of Fe3O4@SNs[{Mo6I8}I6] is explained by residual amounts of iron ions at the silica surface

ROS-generation and cellular uptake behavior of amino-silica nanoparticles arisen from their uploading by both iron-oxides and hexamolybdenum clusters

The present work introduces combination of superparamagnetic iron oxides (SPIONs) and hexamolybdenum cluster ([{Mo6I8}I-6](2)(-)) units within amino-decorated silica nanoparticles (SNs) as promising design of the hybrid SNs as efficient cellular contrast and therapeutic agents. The heating generated by SNs doped with SPIONs (Fe3O4@SNs) under alternating magnetic field is characterized by high specific absorption rate (SAR = 446 W/g). The cluster units deposition onto both Fe3O4@SNs and "empty" silica nanoparticles (SNs) results in Fe3O4@SNs[{Mo6I8}I-6] and SNs[{Mo6I8}I-6] with red cluster-centered luminescence and ability to generate reactive oxygen species (ROS) under the irradiation. The monitoring of spin-trapped ROS by ESR spectroscopy technique indicates that the ROS-generation decreases in time for SNs[{Mo6I8}I-6] and [{Mo6I8}I-6](2-) in aqueous solutions, while it remains constant for Fe3O4@SNs[{Mo6I8}I-6]. The cytotoxicity is low for both Fe304@SNs[{Mo6I8}I-6] and SNs[{Mo6I8}I-6], while the flow cytometry indicates preferable cellular uptake of the former versus the latter type of the nanoparticles. Moreover, entering into nucleus along with cytoplasm differentiates the intracellular distribution of Fe304@SNs[{Mo6I8}I-6] from that of SNs[{Mo6I8}I-6], which remain in the cell cytoplasm only. The exceptional behavior of Fe3O4@SNs[{Mo6I8}I-6] is explained by residual amounts of iron ions at the silica surface.Web of Science117art. no. 11130