Nanoscale phase-engineering of thermal transport with a Josephson heat modulator

Macroscopic quantum phase coherence has one of its pivotal expressions in the Josephson effect [1], which manifests itself both in charge [2] and energy transport [3-5]. The ability to master the amount of heat transferred through two tunnel-coupled superconductors by tuning their phase difference is the core of coherent caloritronics [4-6], and is expected to be a key tool in a number of nanoscience fields, including solid state cooling [7], thermal isolation [8, 9], radiation detection [7], quantum information [10, 11] and thermal logic [12]. Here we show the realization of the first balanced Josephson heat modulator [13] designed to offer full control at the nanoscale over the phase-coherent component of thermal currents. Our device provides magnetic-flux-dependent temperature modulations up to 40 mK in amplitude with a maximum of the flux-to-temperature transfer coefficient reaching 200 mK per flux quantum at a bath temperature of 25 mK. Foremost, it demonstrates the exact correspondence in the phase-engineering of charge and heat currents, breaking ground for advanced caloritronic nanodevices such as thermal splitters [14], heat pumps [15] and time-dependent electronic engines [16-19].Comment: 6+ pages, 4 color figure

An unbiased genetic screen reveals the polygenic nature of the influenza virus anti-interferon response.

Influenza A viruses counteract the cellular innate immune response at several steps, including blocking RIG I-dependent activation of interferon (IFN) transcription, interferon (IFN)-dependent upregulation of IFN-stimulated genes (ISGs), and the activity of various ISG products; the multifunctional NS1 protein is responsible for most of these activities. To determine the importance of other viral genes in the interplay between the virus and the host IFN response, we characterized populations and selected mutants of wild-type viruses selected by passage through non-IFN-responsive cells. We reasoned that, by allowing replication to occur in the absence of the selection pressure exerted by IFN, the virus could mutate at positions that would normally be restricted and could thus find new optimal sequence solutions. Deep sequencing of selected virus populations and individual virus mutants indicated that nonsynonymous mutations occurred at many phylogenetically conserved positions in nearly all virus genes. Most individual mutants selected for further characterization induced IFN and ISGs and were unable to counteract the effects of exogenous IFN, yet only one contained a mutation in NS1. The relevance of these mutations for the virus phenotype was verified by reverse genetics. Of note, several virus mutants expressing intact NS1 proteins exhibited alterations in the M1/M2 proteins and accumulated large amounts of deleted genomic RNAs but nonetheless replicated to high titers. This suggests that the overproduction of IFN inducers by these viruses can override NS1-mediated IFN modulation. Altogether, the results suggest that influenza viruses replicating in IFN-competent cells have tuned their complete genomes to evade the cellular innate immune system and that serial replication in non-IFN-responsive cells allows the virus to relax from these constraints and find a new genome consensus within its sequence space. IMPORTANCE In natural virus infections, the production of interferons leads to an antiviral state in cells that effectively limits virus replication. The interferon response places considerable selection pressure on viruses, and they have evolved a variety of ways to evade it. Although the influenza virus NS1 protein is a powerful interferon antagonist, the contributions of other viral genes to interferon evasion have not been well characterized. Here, we examined the effects of alleviating the selection pressure exerted by interferon by serially passaging influenza viruses in cells unable to respond to interferon. Viruses that grew to high titers had mutations at many normally conserved positions in nearly all genes and were not restricted to the NS1 gene. Our results demonstrate that influenza viruses have fine-tuned their entire genomes to evade the interferon response, and by removing interferon-mediated constraints, viruses can mutate at genome positions normally restricted by the interferon response

Rectification of electronic heat current by a hybrid thermal diode

We report the realization of an ultra-efficient low-temperature hybrid heat current rectifier, thermal counterpart of the well-known electric diode. Our design is based on a tunnel junction between two different elements: a normal metal and a superconducting island. Electronic heat current asymmetry in the structure arises from large mismatch between the thermal properties of these two. We demonstrate experimentally temperature differences exceeding $60$ mK between the forward and reverse thermal bias configurations. Our device offers a remarkably large heat rectification ratio up to $\sim 140$ and allows its prompt implementation in true solid-state thermal nanocircuits and general-purpose electronic applications requiring energy harvesting or thermal management and isolation at the nanoscale.Comment: 8 pages, 6 color figure

Developments in Trait Emotional Intelligence Research

Trait emotional intelligence ("trait EI") concerns our perceptions of our emotional abilities, that is, how good we believe we are in terms of understanding, regulating, and expressing emotions in order to adapt to our environment and maintain well-being. In this article, we present succinct summaries of selected findings from research on (a) the location of trait EI in personality factor space, (b) the biological underpinnings of the construct, (c) indicative applications in the areas of clinical, health, social, educational, organizational, and developmental psychology, and (d) trait EI training. Findings to date suggest that individual differences in trait EI are a consistent predictor of human behavior across the life span

Identification and Characterization of Epithelial Cell-Derived Dense Bodies Produced upon Cytomegalovirus Infection

Dense bodies (DB) are complex, noninfectious particles produced during CMVinfection containing envelope and tegument proteins that may be ideal candidates as vaccines. Although DB were previously described in fibroblasts, no evidence of DB formation has been shown after propagating CMV in epithelial cells. In the present study, both fibroblast MRC-5 and epithelial ARPE-19 cells were used to study DB production during CMV infection. We demonstrate the formation of epithelial cell-derived DB, mostly located as cytoplasmic inclusions in the perinuclear area of the infected cell. DB were gradient-purified, and the nature of the viral particles was confirmed using CMV-specific immunelabeling. Epithelial cell-derived DB had higher density and more homogeneous size (200-300 nm) compared to fibroblast-derived DB (100-600 nm).In agreement with previous results characterizing DB from CMV-infected fibroblasts, the pp65 tegument protein was predominant in the epithelial cell-derived DB. Our results also suggest that epithelial cells had more CMV capsids in the cytoplasm and had spherical bodies compatible with nucleus condensation (pyknosis) in cells undergoing apoptosis that were not detected in MRC-5 infected cells at the tested time post-infection. Our results demonstrate the formation of DB in CMV-infected ARPE-19 epithelial cells that may be suitable candidate to develop a multiprotein vaccine with antigenic properties similar to that of the virions while not including the viral genome.This study was supported by the Spanish Ministry of Science, Innovation and University, Instituto de Salud Carlos III Grant/Award Numbers: PI17CIII-00014 (MPY110/18); PI20CIII-00009 (MPY303/20); DTS18CIII/00006 (MPY127/19). E.G-R is supported by the Sara Borrell Program (CD18CIII/00007), Instituto de Salud Carlos III, Ministerio de Ciencia, Innovación y Universidades. MJR is supported by the PTA Program (PTA2017-14233-I), Ministerio de Ciencia, Innovación y Universidades.S

Design Patterns for Efficient Solutions to NP-Complete Problems in Membrane Computing

Many variants of P systems have the ability to generate an exponential number of membranes in linear time. This feature has been exploited to elaborate (theoretical) efficient solutions to NP-complete, or even harder, problems. A thorough review of the existent solutions shows the utilization of common techniques and procedures. The abstraction of the latter into design patterns can serve to ease and accelerate the construction of efficient solutions to new hard problems.Ministerio de Economía y Competitividad TIN2017-89842-

La calidad de vida del paciente nefrológico desde la perspectiva bioética

Introduction: Patients with chronic renal failure on hemodialysis are a group of people with very particular characteristics. In this case, the disease, adaptation and coping are influenced by beliefs about it are taken. Studying the coping mechanisms of the disease and the degree of satisfaction with health care, especially nursing care, will determine, together with the appreciation of the degree of subjective well-being expressed around the concept of quality of life, the presence adaptive or maladaptive behavior related to chronic disease that these patients suffer. These concepts are studied through surveys of 350 patients with chronic renal failure undergoing hemodialysis treatment in different hospitals and the Region of Murcia, in order to describe the perceived quality of life, coping styles and satisfaction with nursing care that these patients experience, and the factors that determine different outcomes between patients or others. These results demonstrate how the idea main conclusion that "there is no charity without autonomy, since the benefit defined by the autonomous person in relation to their value system," so would be needed to analyze the patient's values in the clinical process Objectives: Describe the quality of life, coping styles and satisfaction with nursing care, which experienced a group of patients with chronic renal failure, hemodialysis, in the Region of Murcia. From this overall objective, we propose the following specific objectives: Analyze the factors and variables that differentiate the different perceptions of quality of life and coping styles of each of the study patients, such as age, sex, length of stay, severity of illness and other demographic variables.Material and methods: Study conducted in 2009 with 350 patients with chronic renal failure undergoing hemodialysis, distributed in schools and hospitals in the Region of MurciaConclusion: The values are the most important thing we all human beings in our lives. And the way we manage and depend on us to feel happy or not, on the one hand, and healthy for another. The new nephrology, as the new medicine, including the new ethics must be designed to better manage the values that shape the life and ideals of people. Only in this way we can help our fellow citizens to be more healthy and happy.Introducción. Los pacientes con insuficiencia renal crónica en tratamiento con hemodiálisis conforman un grupo de población con unas características muy particulares. Estudiar los mecanismos de afrontamiento de la enfermedad y el grado de satisfacción con los cuidados sanitarios, en especial con los cuidados de enfermería, determinarán la presencia de comportamiento adaptativos o desadaptativos en relación a la enfermedad crónica que estos pacientes padecen.Objetivos: Describir la calidad de vida, los estilos de afrontamiento y grado de satisfacción con los cuidados de Enfermería, que experimentan un grupo de pacientes con insuficiencia renal crónica, sometidos a hemodiálisis, en la Región de Murcia.Material y método: Estudio llevado a cabo en 2009 con 350 pacientes con insuficiencia renal crónica, sometidos a tratamiento de hemodiálisis, distribuidos en los centros y hospitales de la Región de Murcia.Conclusiones: Los valores son lo más importante que tenemos todos los seres humanos en nuestras vidas. Y del modo en como lo gestionemos, dependerá el que nos sintamos o no felices, por una parte, y sanos, por otra.La nueva nefrología, como la nueva Medicina, como la nueva ética, han de tener por objeto un mejor manejo de los valores que configuran la vida y los ideales de las personas

Counting Membrane Systems

A decision problem is one that has a yes/no answer, while a counting problem asks how many possible solutions exist associated with each instance. Every decision problem X has associated a counting problem, denoted by #X, in a natural way by replacing the question “is there a solution?” with “how many solutions are there?”. Counting problems are very attractive from a computational complexity point of view: if X is an NP-complete problem then the counting version #X is NP-hard, but the counting version of some problems in class P can also be NP-hard. In this paper, a new class of membrane systems is presented in order to provide a natural framework to solve counting problems. The class is inspired by a special kind of non-deterministic Turing machines, called counting Turing machines, introduced by L. Valiant. A polynomial-time and uniform solution to the counting version of the SAT problem (a well-known #P-complete problem) is also provided, by using a family of counting polarizationless P systems with active membranes, without dissolution rules and division rules for non-elementary membranes but where only very restrictive cooperation (minimal cooperation and minimal production) in object evolution rules is allowed