923 research outputs found
Influences of thermal environment on fish growth
Indexación: Scopus.Thermoregulation in ectothermic animals is influenced by the ability to effectively respond to thermal variations. While it is known that ectotherms are affected by thermal changes, it remains unknown whether physiological and/or metabolic traits are impacted by modifications to the thermal environment. Our research provides key evidence that fish ectotherms are highly influenced by thermal variability during development, which leads to important modifications at several metabolic levels (e.g., growth trajectories, microstructural alterations, muscle injuries, and molecular mechanisms). In Atlantic salmon (Salmo salar), a wide thermal range (ΔT 6.4°C) during development (posthatch larvae to juveniles) was associated with increases in key thermal performance measures for survival and growth trajectory. Other metabolic traits were also significantly influenced, such as size, muscle cellularity, and molecular growth regulators possibly affected by adaptive processes. In contrast, a restricted thermal range (ΔT 1.4°C) was detrimental to growth, survival, and cellular microstructure as muscle growth could not keep pace with increased metabolic demands. These findings provide a possible basic explanation for the effects of thermal environment during growth. In conclusion, our results highlight the key role of thermal range amplitude on survival and on interactions with major metabolism-regulating processes that have positive adaptive effects for organisms.http://onlinelibrary.wiley.com/doi/10.1002/ece3.3239/ful
Synthesis, physicochemical and photophysical characterization of 4-(1-Pyrenyl)-Butyl-α-d-mannopyranoside
Indexación: Web of Science; Scopus; Scielo.Glycolipids are biomolecules composed of a lipid chain (lipophilic) and a monosaccharide or oligosaccharide as hydrophilic group. Their chemical structure and biological role make them undoubtedly good candidates for a large and continuously growing number of biotechnological applications. Mannose is a carbohydrate present on membrane glycolipids of a wide number of pathogenic microorganisms (bacteria, fungi, protozoa, and viruses) and specifically recognized by several lectins. We synthesized a mannose derivative linked through a short methylene chain to a pyrene moiety which behaves as a surfactant, able to aggregate, and retains the photophysical properties of pyrene: showing comparable absorption and emission spectra, having lower fluorescence quantum yield and the ability to form excimer, and finally the ability to produce O-2((1)Delta(g)) with high quantum yields. Thus, this novel molecule would open future applications for detection (fluorescence) or inactivation (singlet oxygen) of bacterial pathogens, viruses, tumor cells, or particular cells.http://ref.scielo.org/pcn4d
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A New Calibration Of Galactic Cepheid Period-Luminosity Relations From B To K Bands, And A Comparison To LMC Relations
Context. The universality of the Cepheid period-luminosity (PL) relations has been under discussion since metallicity effects were assumed to play a role in the value of the intercept and, more recently, of the slope of these relations. Aims. The goal of the present study is to calibrate the Galactic PL relations in various photometric bands (from B to K) and to compare the results to the well-established PL relations in the LMC. Methods. We use a set of 59 calibrating stars, the distances of which are measured using five different distance indicators: Hubble Space Telescope and revised Hipparcos parallaxes, infrared surface brightness and interferometric Baade-Wesselink parallaxes, and classical Zero-Age-Main-Sequence-fitting parallaxes for Cepheids belonging to open clusters or OB stars associations. A detailed discussion of absorption corrections and projection factor to be used is given. Results. We find no significant difference in the slopes of the PL relations between LMC and our Galaxy. Conclusions. We conclude that the Cepheid PL relations have universal slopes in all photometric bands, not depending on the galaxy under study (at least for LMC and Milky Way). The possible zero-point variation with metal content is not discussed in the present work, but an upper limit of 18.50 for the LMC distance modulus can be deduced from our data.McDonald Observator
Una mirada crítica a la ética de la IA: de preocupaciones emergentes y principios orientadores a un desvelar ético
En este artículo examino el estado actual de la “segunda ola” de la ética en la inteligencia artificial (IA), la cual se centra en la integración de principios éticos fundamentales como la justicia, la privacidad, la transparencia y la explicabilidad en el diseño, uso e implementación de sistemas de IA. Argumento que, aunque esta fase ha sido criticada por su naturaleza abstracta y su falta de contextualización, es imperativo que la emergente “tercera ola” adopte un cambio paradigmático hacia un “desvelar ético”. Propongo que este desvelar ético debería involucrar un profundo y continuo proceso hermenéutico que no solo interprete cómo las tecnologías de IA reconfiguran nuestras estructuras sociales, políticas y personales, sino que también actúe como un medio de liberación del enmarcamiento tecnológico Heideggeriano. Este enfoque sugiere que la ética debe ser considerada no solo como un complemento, sino como un componente esencial y fundamental en el ciclo de vida del desarrollo de la IA, fomentando así una integración más profunda de consideraciones éticas que guíen tanto la innovación tecnológica como su implementación práctica
Characterization of the unfolding of a weak focus and modulus of analytic classification
La thèse présente une description géométrique d’un germe de famille générique
déployant un champ de vecteurs réel analytique avec un foyer faible à l’origine
et son complexifié : le feuilletage holomorphe singulier associé. On montre que
deux germes de telles familles sont orbitalement analytiquement équivalents si
et seulement si les germes de familles de difféomorphismes déployant la complexification de leurs fonctions de retour de Poincaré sont conjuguées par une
conjugaison analytique réelle. Le “caractère réel” de la famille correspond à sa
Z2-équivariance dans R^4, et cela s’exprime comme l’invariance du plan réel sous
le flot du système laquelle, à son tour, entraîne que l’expansion asymptotique de
la fonction de Poincaré est réelle quand le paramètre est réel. Le pullback du plan
réel après éclatement par la projection monoidal standard intersecte le feuilletage
en une bande de Möbius réelle. La technique d’éclatement des singularités permet
aussi de donner une réponse à la question de la “réalisation” d’un germe de famille
déployant un germe de difféomorphisme avec un point fixe de multiplicateur
égal à −1 et de codimension un comme application de semi-monodromie d’une
famille générique déployant un foyer faible d’ordre un. Afin d’étudier l’espace
des orbites de l’application de Poincaré, nous utilisons le point de vue de Glutsyuk,
puisque la dynamique est linéarisable auprès des points singuliers : pour les valeurs réels du paramètre, notre démarche, classique, utilise une méthode géométrique,
soit un changement de coordonée (coordonée “déroulante”) dans lequel la dynamique devient beaucoup plus simple. Mais le prix à payer est que la géométrie locale du plan complexe ambiante devient une surface de Riemann, sur laquelle deux notions de translation sont définies. Après avoir pris le quotient par le relèvement de la dynamique nous obtenons l’espace des orbites, ce qui s’avère être l’union de trois tores complexes plus les points singuliers (l’espace résultant est non-Hausdorff). Les translations, le caractère réel de l’application de Poincaré
et le fait que cette application est un carré relient les différentes composantes du
“module de Glutsyuk”. Cette propriété implique donc le fait qu’une seule composante
de l’invariant Glutsyuk est indépendante.The thesis gives a geometric description for the germ of the singular holomorphic foliation associated with the complexification of a germ of generic analytic family unfolding a real analytic vector field with a weak focus at the origin. We show that two such germs of families are orbitally analytically equivalent if and only if the germs of families of diffeomorphisms unfolding the complexified Poincaré map of the singularities are conjugate by a real analytic conjugacy. The Z2-equivariance
of the family of real vector fields in R^4 is called the “real character” of the system.
It is expressed by the invariance of the real plane under the flow of the system
which, in turn, carries the real asymptotic expansion of the Poincaré map when
the parameter is real. After blowing up the singularity, the pullback of the real
plane by the standard monoidal map intersects the foliation in a real Möbius strip. The blow up technique allows to “realize” a germ of generic family unfolding
a germ of diffeomorphism of codimension one and multiplier −1 at the origin as the semi-monodromy of a generic family unfolding an order one weak focus. In order to study the orbit space of the Poincaré map, we perform a trade-off between geometry and dynamics under the Glutsyuk point of view (where the dynamics is linearizable near the singular points): in the resulting “unwrapping coordinate” the dynamics becomes much simpler, but the price we pay is that the local geometry of the ambient complex plane turns into a much more involved
Riemann surface. Over the latter, two notions of translations are defined. After
taking the quotient by the lifted dynamics we get the orbit space, which turns out
to be the union of three complex tori and the singular points (this space is non-
Hausdorff). The Glutsyuk invariant is then defined over annular-like regions on the tori. The translations, the real character and the fact that the Poincaré map is
the square of the semi-monodromy map, relate the different components of the Glutsyuk modulus. That property yields only one independent component of the Glutsyuk invariant
Parvovirus-derived endogenous viral elements in two South American rodent genomes
We describe endogenous viral elements (EVEs) derived from parvoviruses (family
<i>Parvoviridae</i>) in the long-tailed chinchilla (<i>Chinchilla lanigera</i>) and degu (<i>Octodon degus</i>)
genomes. The novel EVEs include Dependovirus-related elements, and representatives of a
clearly distinct parvovirus lineage that also has endogenous representatives in marsupial
genomes. In the degu, one dependovirus-derived EVEs was found to encode an intact reading
frame, and was differentially expressed <i>in vivo</i>, with increased expression in the liver
The Orbit of the New Milky Way Globular Cluster FSR1716 =VVV-GC05
Indexación: Scopus.We use deep, multi-epoch near-IR images of the VISTA Variables in the Via Lictea (VVV) Survey to measure proper motions (PMs) of stars in the Milky Way globular cluster (GC) FSR1716 = VVV-GC05. The colormagnitude diagram of this object, made by using PM-selected members, shows an extended horizontal branch, nine confirmed RR Lyrae (RRL) members in the instability strip, and possibly several hotter stars extending to the blue. Based on the fundamental-mode (ab-type) RRL stars that move coherently with the cluster, we confirmed that FSR1716 is an Oosterhoff I GC with a mean period aPabn = 0.574 days. Intriguingly, we detect tidal extensions to both sides of this cluster in the spatial distribution of PM-selected member stars. Also, one of the confirmed RRabs is located -11 arcmin in projection from the cluster center, suggesting that FSR1716 may be losing stars due to the gravitational interaction with the Galaxy. We also measure radial velocities (RVs) for five cluster red giants selected using the PMs. The combination of RVs and PMs allow us to compute for the first time the orbit of this GC, using an updated Galactic potential. The orbit results to be confined within|Zmax| < 2.0 kpc, and has eccentricity 0.4 < e < 0.6, with perigalactic distance 1.5 < Rperi (kpc) < 2.3, and apogalactic distance 5.3 < Rapo (kpc) < 6.4. We conclude that, in agreement with its relatively low metallicity ([Fe/H] =-1.4 dex), this is an inner-halo GC plunging into the disk of the Galaxy. As such, this is a unique object with which to test the dynamical processes that contribute to the disruption of Galactic GCs. © 2018. The American Astronomical Society. All rights reserved.https://iopscience.iop.org/article/10.3847/1538-4357/aacd0
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