Weak Charge Quantization as an Instanton of Interacting sigma-model

Coulomb blockade in a quantum dot attached to a diffusive conductor is considered in the framework of the non-linear sigma-model. It is shown that the weak charge quantization on the dot is associated with instanton configurations of the Q-field in the conductor. The instantons have a finite action and are replica non--symmetric. It is argued that such instantons may play a role in the transition regime to the interacting insulator.Comment: 4 pages. The 2D case substantially modifie

Statistical Properties of the Reflectance and Transmittance of an Amplifying Random Media

Statistical properties of the transmittance ($T$) and reflectance ($R$) of an amplifying layer with one-dimensional disorder are investigated analytically. Whereas the transmittance at typical realizations decreases exponentially with the layer thickness $L$ just as it does in absorbing media, the average $\left\langle T\right\rangle$ and $\left\langle R\right\rangle$\ are shown to be infinite even for finite $L$ due to the contribution of low-probable resonant realizations corresponding to the non-Gaussian tail of the distribution of $\ln T$. This tail differs drastically from that in the case of absorption. The physical meaning of typical and resonant realizations is discussed.Comment: 5 pages (RevTeX

Two-dimensional array of diffusive SNS junctions with high-transparent interfaces

We report the first comparative study of the properties of two-dimensional arrays and single superconducting film - normal wire - superconducting film (SNS) junctions. The NS interfaces of our SNS junctions are really high transparent, for superconducting and normal metal parts are made from the same material (superconducting polycrystalline PtSi film). We have found that the two-dimensional arrays reveal some novel features: (i) the significant narrowing of the zero bias anomaly (ZBA) in comparison with single SNS junctions, (ii) the appearance of subharmonic energy gap structure (SGS), with up to n=16 (eV=\pm 2\Delta/n), with some numbers being lost, (iii) the transition from 2D logarithmic weak localization behavior to metallic one. Our experiments show that coherent phenomena governed by the Andreev reflection are not only maintained over the macroscopic scale but manifest novel pronounced effects as well. The behavior of the ZBA and SGS in 2D array of SNS junctions strongly suggests that the development of a novel theoretical approach is needed which would self-consistently take into account the distribution of the currents, the potentials, and the superconducting order parameter.Comment: RevTex, 5 pages, 5 figure

Microcirculatory Status and Metabolic Activity of Tissues after Local Administration of Autologous Plasma on the Model of Explosive Soft Tissue Wound in Rats

Background. The possibility of local application of autologous blood plasma (ABP) in soft tissue injuries is currently of particular interest.Objectives. Evaluation of the effects of peri-wound (perifocal) administration of ABP on red blood parameters, microcirculation and oxygen supply of soft tissues of the limb in experimental explosive wound (EW) in rats.Methods. EW was simulated on male Wistar rats (n=146) using a firecracker with a pyrotechnic mixture (patent RU No. 2741238 dated 22.01.2021). Animals were divided into 4 groups: control (2), comparison (1), main (1). The volume of blood loss in explosive wounds was 8 and 15% of the estimated circulating blood volume (CBV) of the animal. Blood was drawn from the rat tail to obtain ABP. 3 hours after the injury, ABP or 0.9% sodium chloride solution was injected intramuscularly into the explosive wound area at a rate of 2.0 ml/kg of animal weight. After 3, 7, 14, 28 days, the number of red blood cells, haemoglobin content, haematocrit were determined in the blood, and microcirculation and oxidative metabolism parameters were determined in the skeletal muscles of the injured area. The data were processed using Microsoft Excel 2013 (Microsoft, USA) and Statistica 10.0 (StatSoft Inc., USA).Results. Blood loss of 8% of the CBV in injured animals did not lead to changes in the quantitative composition of peripheral red blood. After an explosive wound with a blood loss of 15% of the CBV, there was a moderate decrease in the number of red blood cells (from 8.3×1012/l to 6.5×1012/l, p < 0.02), haemoglobin level (from 149.5 g/l to 118 g/l, p < 0.01), haematocrit (from 43.8% to 33.6%, p < 0.01) with recovery by day 7 of observation. The explosive soft tissue wound was characterized by marked post-traumatic microcirculatory disorders irrespective of the amount of blood loss. Perifocal intramuscular administration of ABP in animals with an explosive wound and blood loss of 15% CBV reduced the severity of post-traumatic microcirculatory and oxidative metabolic disorders mainly in the early post-traumatic period, as evidenced by an increase in the perfusion variation coefficient Kv by 1.2–1.3 times (p < 0.05), tissue oxygen consumption U by 20–22% (p < 0.05) and fluorescent oxygen consumption by FPC by 48% (p < 0.05).Conclusion. With an experimental explosive wound of the soft tissues of the thigh in rats, a single early (3 hours after the injury) peri-wound intramuscular administration of ABP reduces the severity of local post-traumatic microcirculatory and metabolic disorders in skeletal muscle

Получение цельноорганного скаффолда печени крысы

Engineering a three-dimensional scaffold opens up great prospects for creation of manufacturing biological artificial organs. The article presents a method of perfusion decellularization of a rat liver, with the main problems and options for their solution being analyzed. Perfusion of a donor liver with 0.1 % a sodium dodecyl sulfate (SDS) solution allows obtaining a high-quality cell-free matrix characterized by preserved hepatic architectonics, patent vascular bed, residual DNA of less than 1 %, no signs of collagen fibers destruction and tissue edema. The obtained scaffold can be used for recellularization by allogeneic cell cultures when creating volumetric tissue-engineered designs.Получение трехмерного скаффолда открывает широкие перспективы для инженерии биоискусственных органов. В работе представлен метод перфузионной децеллюляризации печени крысы с анализом основных проблем и вариантов их решения. Перфузия донорской печени 0,1 %-ным раствором додецилсульфата натрия (SDS) позволяет получить качественный бесклеточный матрикс, характеризующийся сохранностью печеночной архитектоники, проходимостью сосудистого русла, остаточной ДНК менее 1 %, отсутствием признаков деструкции коллагеновых волокон и тканевого отека. Полученный предложенным методом скаффолд может использоваться для рецеллюляризации аллогенными клеточными культурами при создании объемных тканеинженерных конструкций

MECHANISMS OF ANTI-PROLIFERATIVE EFFECT PRODUCED BY MESENCHYMAL STEM CELLS IN PATIENTS WITH MULTIPLE SCLEROSIS

Abstract. We investigated the ability of autologous/allogeneic mesenchymal stem cells (MSC) from early passages, derived from bone marrow of patients with multiple sclerosis, to inhibit mitogen/myelin-induced proliferation  of  memory  T  cells.  It  was  shown  that  MSC  immunosuppressive  potential  of  myelin-induced T-cell memory proliferation was significantly higher than an appropriate suppressive effect upon mitogenstimulated cells. These data provide an evidence for a possible pathogenetic role of MSCs in suppression of myelin-specific proliferation of effector lymphoid cells. Immunoregulatory mechanisms of mesenchymal stem cells  have  been  determined.  It  has  been  shown  that both soluble factors and cell-mediated interactions may be  involved  in  immunosuppressive  activity  of  MSCs.  Moreover, soluble mediators of MSC immunoregulatory properties, e.c., prostaglandin E2 and indoleamine 2,3-dioxygenase,  were  not  produced  in  constitutive  manner,  but  they  require  a  paracrine  signal  from T-lymphocytes. The data obtained may be used for development of an individual approach, in order to estimate immunomodulatory properties of MSCs and for further application of cell cultures in pathogenetic therapy of multiple sclerosis. (Med. Immunol., 2011, vol. 13, N 2-3, pp 237-246

Genome Studies in Four Species of <i>Calendula</i> L. (Asteraceae) Using Satellite DNAs as Chromosome Markers

The taxonomically challenging genus Calendula L. (Asteraceae) includes lots of medicinal species characterized by their high morphological and karyological variability. For the first time, a repeatome analysis of a valuable medicinal plant Calendula officinalis L. was carried out using high-throughput genome DNA sequencing and RepeatExplorer/TAREAN pipelines. The FISH-based visualization of the 45S rDNA, 5S rDNA, and satellite DNAs of C. officinalis was performed on the chromosomes of C. officinalis, C. stellata Cav., C. tripterocarpa Rupr., and C. arvensis L. Three satellite DNAs were demonstrated to be new molecular chromosome markers to study the karyotype structure. Karyograms of the studied species were constructed, their ploidy status was specified, and their relationships were clarified. Our results showed that the C. officinalis karyotype differed from the karyotypes of the other three species, indicating its separate position in the Calendula phylogeny. However, the presence of common repeats revealed in the genomes of all the studied species could be related to their common origin. Our findings demonstrated that C. stellata contributed its genome to allotetraploid C. tripterocarpa, and C. arvensis is an allohexaploid hybrid between C. stellata and C. tripterocarpa. At the same time, further karyotype studies of various Calendula species are required to clarify the pathways of chromosomal reorganization that occurred during speciation