858 research outputs found
Comment on "Antibodies to influenza nucleoprotein cross-react with human hypocretin receptor 2".
Did hypocretin receptor 2 autoantibodies cause narcolepsy with hypocretin deficiency in Pandemrix-vaccinated children, as suggested by Ahmed et al.? Using newly developed mouse models to report and inactivate hypocretin receptor expression, Vassalli et al. now show that hypocretin neurons (whose loss causes narcolepsy) do not express hypocretin autoreceptors, raising questions to the interpretation of Ahmed et al.'s findings
Reconstructing the free energy landscape of a polyprotein by single-molecule experiments
The mechanical unfolding of an engineered protein composed of eight domains
of Ig27 is investigated by using atomic force microscopy. Exploiting a
fluctuation relation, the equilibrium free energy as a function of the molecule
elongation is estimated from pulling experiments. Such a free energy exhibits a
regular shape that sets a typical unfolding length at zero force of the order
of 20 nm. This length scale turns out to be much larger than the kinetic
unfolding length that is also estimated by analyzing the typical rupture force
of the molecule under dynamic loading
Self-driven soft imaging in liquid by means of photothermal excitation
The use of a laser to induce oscillations of an atomic force microscopy cantilever provides a way to excite the dynamics of the system in a very controlled manner. This excitation scheme has been used to obtain reliable self-sustained oscillations, in air and in liquid environments, and to implement an additional control loop leading to a soft, low-interaction, working mode. The dynamics of the oscillating cantilever has been characterized, both theoretically and experimentally, and the effectiveness of the approach has been verified on a test sample. © 2011 American Institute of Physics.Peer Reviewe
Digital holography as 3D tracking tool for assessing acoustophoretic particle manipulation
The integration of digital holography (DH) imaging and the acoustic manipulation
of micro-particles in a microfluidic environment is investigated. The ability of DH to provide
efficient 3D tracking of particles inside a microfluidic channel is exploited to measure the
position of multiple objects moving under the effect of stationary ultrasound pressure fields.
The axial displacement provides a direct verification of the numerically computed positions
of the standing wave’s node, while the particle’s transversal movement highlights the
presence of nodes in the planar direction. Moreover, DH is used to follow the aggregation
dynamics of trapped spheres in such nodes by using aggregation rate metrics
Sex-dependent differences in left ventricular function and structure in chronic pressure overload
To evaluate gender-related differences in left ventricular (LV) structure and function in aortic stenosis, LV biplane cineangiography, micromanometry and endomyocardial biopsies were carried out in 56 patients with aortic stenosis and normal coronary arteries. Patients were divided into males (M: n= θ35), and females (F: n= θ21). Sixteen normal subjects 8 M, 8 F) served as haemodynamic controls. Control biopsy data were obtained from six pre-transplantation donor hearts (3 M and 3 F). LV systolic function was evaluated by ejection fraction and its relationship to mean systolic circumferential wall stress, diastolic function by the time constant of LV pressure decay, peak filling rates and passive myocardial stiffness constant. Biopsy samples were evaluated for interstitial fibrosis, muscle fibre diameter and volume fraction of myofibrils. In a subset of 27 consecutive patients, biopsy samples were evaluated with a morphometric-morphological method, for total collagen volume fraction, endocardial fibrosis and the extension and thickness of orthogonal collagen fibres (cross-hatching). In patients with aortic stenosis, aortic valve area, aortic valve resistance and mean aortic pressure gradient were comparable in males and females, whereas end-systolic and end-diastolic volumes were larger in males than females. Ejection fraction was lower (56%) in males than females (64%) (P 1.5 grade) was present in 11 males and four females with aortic stenosis (P<0.0I). An abnormal collagen architecture was present in 13114 males and 5113 females (V<0.002). In aortic stenosis, males have a depressed systolic function and abnormal passive elastic properties when compared to females with valve lesions of similar severity. Changes in collagen architecture may account, at least in part, for these difference
Non-Newtonian rheology of crystal-bearing magmas and implications for magma ascent dynamics
The eruptive dynamics of volcanic systems are largely controlled by the viscosity of deforming magma. Here we report the results of a series of high-temperature, high-pressure experiments at conditions relevant for volcanic conduits (250 MPa confining pressure and temperature between 500 °C and 900 °C) that were undertaken to investigate the rheology of magma with crystal fractions varying between 0.5 and 0.8 (50 to 80 wt.%) at different strain-rate conditions. The experiments demonstrate that the presence of crystals increases the relative viscosity (ratio between the viscosity of the mixture and the viscosity of the melt phase) of magmas and additionally induces a decrease of the relative viscosity with increasing strain-rate (shear thinning, non-Newtonian behavior). The experimental results, combined with existing data at low crystal fractions (0–0.3), were used to develop a semi-empirical parameterization that describes the variations of relative viscosity for crystal fractions between 0 and 0.8 and accounts for the complex non-Newtonian rheology of crystal-bearing magmas.
The new parameterization, included into numerical models simulating the magma ascent dynamics, reveals that strain-rate-dependent rheology significantly modifies the dynamic behavior inside volcanic conduits, particularly affecting the magma fragmentation conditions
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