The Role of Apoptosis in the Pathogenic Mechanism of Critical States (Review)

The purpose of the overview is to analyze the role of apoptosis in the pathogenesis of critical illness and discuss specific features of contributed biochemical processes. The paper reviews 117 publications, 76 of which were published during the recent five years. Published data show that the ability to control endogenic apoptotic processes offers opportunities for the development of functional therapy approaches to various diseases

Роль апоптоза в патогенезе некоторых критических состояний

The purpose of the overview is to analyze the role of apoptosis in the pathogenesis of critical illness and discuss specific features of contributed biochemical processes. The paper reviews 117 publications, 76 of which were published during the recent five years. Published data show that the ability to control endogenic apoptotic processes offers opportunities for the development of functional therapy approaches to various diseases.Цель обзора — анализ роли апоптоза в патогенезе некоторых критических состояний и описание особенностей биохимических процессов, вовлеченных в его развитие. В статью включено 117 публикаций, в том числе 76 за последние пять лет. Анализ обсуждаемых работ показывает, что способность управлять эндогенными апоптическими процессами открывает возможности для разработки подходов функциональной терапии ряда заболеваний

Exact analytical solution of the problem of current-carrying states of the Josephson junction in external magnetic fields

The classical problem of the Josephson junction of arbitrary length W in the presence of externally applied magnetic fields (H) and transport currents (J) is reconsidered from the point of view of stability theory. In particular, we derive the complete infinite set of exact analytical solutions for the phase difference that describe the current-carrying states of the junction with arbitrary W and an arbitrary mode of the injection of J. These solutions are parameterized by two natural parameters: the constants of integration. The boundaries of their stability regions in the parametric plane are determined by a corresponding infinite set of exact functional equations. Being mapped to the physical plane (H,J), these boundaries yield the dependence of the critical transport current Jc on H. Contrary to a wide-spread belief, the exact analytical dependence Jc=Jc(H) proves to be multivalued even for arbitrarily small W. What is more, the exact solution reveals the existence of unquantized Josephson vortices carrying fractional flux and located near one of the junction edges, provided that J is sufficiently close to Jc for certain finite values of H. This conclusion (as well as other exact analytical results) is illustrated by a graphical analysis of typical cases.Comment: 21 pages, 9 figures, to be published in Phys. Rev.

Universal Crossover between Efros-Shklovskii and Mott Variable-Range-Hopping Regimes

A universal scaling function, describing the crossover between the Mott and the Efros-Shklovskii hopping regimes, is derived, using the percolation picture of transport in strongly localized systems. This function is agrees very well with experimental data. Quantitative comparison with experiment allows for the possible determination of the role played by polarons in the transport.Comment: 7 pages + 1 figure, Revte

Precise measurement of RudsR_{\text{uds}} and RR between 1.84 and 3.72 GeV at the KEDR detector

The present work continues a series of the KEDR measurements of the $R$ value that started in 2010 at the VEPP-4M $e^+e^-$ collider. By combining new data with our previous results in this energy range we measured the values of $R_{\text{uds}}$ and $R$ at nine center-of-mass energies between 3.08 and 3.72 GeV. The total accuracy is about or better than $2.6\%$ at most of energy points with a systematic uncertainty of about $1.9\%$. Together with the previous precise $R$ measurement at KEDR in the energy range 1.84-3.05 GeV, it constitutes the most detailed high-precision $R$ measurement near the charmonium production threshold.Comment: arXiv admin note: text overlap with arXiv:1610.02827 and substantial text overlap with arXiv:1510.0266

Experience of interaction with an industrial partner: results and prospects

he purpose of the study. To assess satisfaction with the training of obstetricians and gynecologists on the cycles of advanced training, which are an example of the commonwealth of education, production and practice.Цель исследования. Провести оценку удовлетворенности обучением врачей акушеров‑гинекологов на циклах повышения квалификации, являющихся примером содружества образования, производства и практики

Investigation of Radiation-Protective Properties of Glasses with the Addition of Niobium Oxide

The radiation protection capabilities of the WO3-La2O3-B2O3-Nb2O5 glass system were calculated. Presents the results of calculating the protective properties of a glass system against gamma radiation using the Geant4 calculation code for the energy range 0,015-3 MeV

Estimated Estimation of the Residual Heat Release of SFAS in the Holding Pools

The paper presents a calculated estimate of the residual heat release of irradiated fuel assemblies (SFAS) in the holding pools, depending on the fuel parameters (burn-out depth, uranium-235 loading mass, etc.

End-Tagging of Ultra-Short Antimicrobial Peptides by W/F Stretches to Facilitate Bacterial Killing

BACKGROUND: Due to increasing resistance development among bacteria, antimicrobial peptides (AMPs), are receiving increased attention. Ideally, AMP should display high bactericidal potency, but low toxicity against (human) eukaryotic cells. Additionally, short and proteolytically stable AMPs are desired to maximize bioavailability and therapeutic versatility. METHODOLOGY AND PRINCIPAL FINDINGS: A facile approach is demonstrated for reaching high potency of ultra-short antimicrobal peptides through end-tagging with W and F stretches. Focusing on a peptide derived from kininogen, KNKGKKNGKH (KNK10) and truncations thereof, end-tagging resulted in enhanced bactericidal effect against Gram-negative Escherichia coli and Gram-positive Staphylococcus aureus. Through end-tagging, potency and salt resistance could be maintained down to 4-7 amino acids in the hydrophilic template peptide. Although tagging resulted in increased eukaryotic cell permeabilization at low ionic strength, the latter was insignificant at physiological ionic strength and in the presence of serum. Quantitatively, the most potent peptides investigated displayed bactericidal effects comparable to, or in excess of, that of the benchmark antimicrobial peptide LL-37. The higher bactericidal potency of the tagged peptides correlated to a higher degree of binding to bacteria, and resulting bacterial wall rupture. Analogously, tagging enhanced peptide-induced rupture of liposomes, particularly anionic ones. Additionally, end-tagging facilitated binding to bacterial lipopolysaccharide, both effects probably contributing to the selectivity displayed by these peptides between bacteria and eukaryotic cells. Importantly, W-tagging resulted in peptides with maintained stability against proteolytic degradation by human leukocyte elastase, as well as staphylococcal aureolysin and V8 proteinase. The biological relevance of these findings was demonstrated ex vivo for pig skin infected by S. aureus and E. coli. CONCLUSIONS/SIGNIFICANCE: End-tagging by hydrophobic amino acid stretches may be employed to enhance bactericidal potency also of ultra-short AMPs at maintained limited toxicity. The approach is of general applicability, and facilitates straightforward synthesis of hydrophobically modified AMPs without the need for post-peptide synthesis modifications