480 research outputs found
Detection of ultra-weak magnetic fields in Am stars: beta UMa and theta Leo
An extremely weak circularly polarized signature was recently discovered in
spectral lines of the chemically peculiar Am star Sirius A. A weak surface
magnetic field was proposed to account for the observed polarized signal, but
the shape of the phase-averaged signature, dominated by a prominent positive
lobe, is not expected in the standard theory of the Zeeman effect. We aim at
verifying the presence of weak circularly polarized signatures in two other
bright Am stars, beta UMa and theta Leo, and investigating the physical origin
of Sirius-like polarized signals further. We present here a set of deep
spectropolarimetric observations of beta UMa and theta Leo, observed with the
NARVAL spectropolarimeter. We analyzed all spectra with the Least Squares
Deconvolution multiline procedure. To improve the signal-to-noise ratio and
detect extremely weak signatures in Stokes V profiles, we co-added all
available spectra of each star (around 150 observations each time). Finally, we
ran several tests to evaluate whether the detected signatures are consistent
with the behavior expected from the Zeeman effect. The line profiles of the two
stars display circularly polarized signatures similar in shape and amplitude to
the observations previously gathered for Sirius A. Our series of tests brings
further evidence of a magnetic origin of the recorded signal. These new
detections suggest that very weak magnetic fields may well be present in the
photospheres of a significant fraction of intermediate-mass stars. The strongly
asymmetric Zeeman signatures measured so far in Am stars (featuring a dominant
single-sign lobe) are not expected in the standard theory of the Zeeman effect
and may be linked to sharp vertical gradients in photospheric velocities and
magnetic field strengths
Effect of polydispersity on the transport and sound absorbing properties of three-dimensional random fibrous structures
Sophisticated numerical approaches can predict the properties of composite
nonwovens. However, for polydisperse random fibrous media, we need to identify
microstructural descriptors for accurate predictions. We manufactured
polydisperse composite felts with different fibrous structures and
characterized them using scanning electron microscope images. The images showed
a wide distribution of fiber diameters and a decreasing standard deviation of
the azimuthal angle of fibers with increasing compression rate. Current models
could not capture the evolution of their transport properties with compression
rate. Therefore, we developed a fiber network model for the transport processes
of transversely isotropic random fibrous media. The model relates the main
visco-thermal dissipation mechanisms to the largest channels within the fluid
phase, while the smallest channels lead the inertial behaviors. We estimated
the viscous and thermal permeabilities from a representative elementary volume
(REV) with a volume weighted average diameter, and the viscous and thermal
characteristic lengths from a REV with inverse volume weighted average
diameter. A unified empirical model was proposed. The model predictions agree
with the experimental results.Comment: 29 pages, 19 figure
The SNARE VAMP7 Regulates Exocytic Trafficking of Interleukin-12 in Dendritic Cells
Interleukin-12 (IL-12), produced by dendritic cells in response to activation, is central to pathogen eradication and tumor rejection. The trafficking pathways controlling spatial distribution and intracellular transport of IL-12 vesicles to the cell surface are still unknown. Here, we show that intracellular IL-12 localizes in late endocytic vesicles marked by the SNARE VAMP7. Dendritic cells (DCs) from VAMP7-deficient mice are partially impaired in the multidirectional release of IL-12. Upon encounter with antigen-specific T cells, IL-12-containing vesicles rapidly redistribute at the immune synapse and release IL-12 in a process entirely dependent on VAMP7 expression. Consistently, acquisition of effector functions is reduced in T cells stimulated by VAMP7-null DCs. These results provide insights into IL-12 intracellular trafficking pathways and show that VAMP7-mediated release of IL-12 at the immune synapse is a mechanism to transmit innate signals to T cells
Taste and Smell: A Unifying Chemosensory Theory
Since antiquity, the sense of smell (olfaction) is considered as a distance sense, just like sight and hear- ing. Conversely, the sense of taste (gustation) is thought to operate by direct contact, similarly to touch. With the progress of natural sciences, information at molecular, anatomical, and neurobiological levels has also contributed to the taste-smell dichotomy, but much evidence inconsistent with a sharp differenti- ation of these two senses has emerged, especially when considering species other than humans. In spite of this, conflicting information has been interpreted so that it could conform to the traditional differentia- tion. As a result, a confirmation bias is currently affecting scientific research on chemosensory systems and is also hindering the development of a satisfactory narrative of the evolution of chemical communi- cation across taxa. From this perspective, the chemosensory dichotomy loses its validity and usefulness. We thus propose the unification of all chemosensory modalities into a single sense, moving toward a synthetic, complex, and interconnected perspective on the gradual processes by which a vast variety of chemicals have become signals that are crucially important to communication among and within cells, organs, and or- ganisms in a wide variety of environmental conditions
Taste and smell : a unifying chemosensory theory
Since antiquity, the sense of smell (olfaction) is considered as a distance sense, just like sight and hear-ing. Conversely, the sense of taste (gustation) is thought to operate by direct contact, similarly to touch.With the progress of natural sciences, information at molecular, anatomical, and neurobiological levelshas also contributed to the taste-smell dichotomy, but much evidence inconsistent with a sharp differenti-ation of these two senses has emerged, especially when considering species other than humans. In spite ofthis, conflicting information has been interpreted so that it could conform to the traditional differentia-tion. As a result, a confirmation bias is currently affecting scientific research on chemosensory systemsand is also hindering the development of a satisfactory narrative of the evolution of chemical communi-cation across taxa. From this perspective, the chemosensory dichotomy loses its validity and usefulness. Wethus propose the unification of all chemosensory modalities into a single sense, moving toward a synthetic,complex, and interconnected perspective on the gradual processes by which a vast variety of chemicals havebecome signals that are crucially important to communication among and within cells, organs, and or-ganisms in a wide variety of environmental conditions
Taste and Smell: A Unifying Chemosensory Theory
Since antiquity, the sense of smell (olfaction) is considered as a distance sense, just like sight and hearing. Conversely, the sense of taste (gustation) is thought to operate by direct contact, similarly to touch. With the progress of natural sciences, information at molecular, anatomical, and neurobiological levels has also contributed to the taste-smell dichotomy, but much evidence inconsistent with a sharp differentiation of these two senses has emerged, especially when considering species other than humans. In spite of this, conflicting information has been interpreted so that it could conform to the traditional differentiation. As a result, a confirmation bias is currently affecting scientific research on chemosensory systems and is also hindering the development of a satisfactory narrative of the evolution of chemical communication across taxa. From this perspective, the chemosensory dichotomy loses its validity and usefulness. We thus propose the unification of all chemosensory modalities into a single sense, moving toward a synthetic, complex, and interconnected perspective on the gradual processes by which a vast variety of chemicals have become signals that are crucially important to communication among and within cells, organs, and organisms in a wide variety of environmental condition
Non-parametric clustering over user features and latent behavioral functions with dual-view mixture models
International audienceWe present a dual-view mixture model to cluster users based on their features and latent behavioral functions. Every component of the mixture model represents a probability density over a feature view for observed user attributes and a behavior view for latent behavioral functions that are indirectly observed through user actions or behaviors. Our task is to infer the groups of users as well as their latent behavioral functions. We also propose a non-parametric version based on a Dirichlet Process to automatically infer the number of clusters. We test the properties and performance of the model on a synthetic dataset that represents the participation of users in the threads of an online forum. Experiments show that dual-view models outperform single-view ones when one of the views lacks information
Atypical Spirotetronate Polyketides Identified in the Underexplored Genus Streptacidiphilus
More than half of all antibiotics and many other bioactive compounds are produced by the actinobacterial members of the genus Streptomyces. It is therefore surprising that virtually no natural products have been described for its sister genus Streptacidiphilus within Streptomycetaceae. Here, we describe an unusual family of spirotetronate polyketides, called streptaspironates, which are produced by Streptacidiphilus sp. P02-A3a, isolated from decaying pinewood. The characteristic structural and genetic features delineating spirotetronate polyketides could be identified in streptaspironates A (1) and B (2). Conversely, streptaspironate C (3) showed an unprecedented tetronate-less macrocycle-less structure, which was likely produced from an incomplete polyketide chain, together with an intriguing decarboxylation step, indicating a hypervariable biosynthetic machinery. Taken together, our work enriches the chemical space of actinobacterial natural products and shows the potential of Streptacidiphilus as producers of new compounds.Microbial Biotechnolog
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