54 research outputs found
Structure peculiarities of cementite and their influence on the magnetic characteristics
The iron carbide is studied by the first-principle density functional
theory. It is shown that the crystal structure with the carbon disposition in a
prismatic environment has the lowest total energy and the highest energy of
magnetic anisotropy as compared to the structure with carbon in an octahedron
environment. This fact explains the behavior of the coercive force upon
annealing of the plastically deformed samples. The appearance of carbon atoms
in the octahedron environment can be revealed by Mossbauer experiment.Comment: 10 pages, 3 figures, 3 tables. submitted to Phys.Rev.
Detection of Multiple Variants of Grapevine Fanleaf Virus in Single Xiphinema index Nematodes
Grapevine fanleaf virus (GFLV) is responsible for a widespread disease in vineyards
worldwide. Its genome is composed of two single-stranded positive-sense RNAs, which both show
a high genetic diversity. The virus is transmitted from grapevine to grapevine by the ectoparasitic
nematode Xiphinema index. Grapevines in diseased vineyards are often infected by multiple genetic
variants of GFLV but no information is available on the molecular composition of virus variants
retained in X. index following nematodes feeding on roots. In this work, aviruliferous X. index were
fed on three naturally GFLV-infected grapevines for which the virome was characterized by RNAseq.
Six RNA-1 and four RNA-2 molecules were assembled segregating into four and three distinct
phylogenetic clades of RNA-1 and RNA-2, respectively. After 19 months of rearing, single and pools
of 30 X. index tested positive for GFLV. Additionally, either pooled or single X. index carried multiple
variants of the two GFLV genomic RNAs. However, the full viral genetic diversity found in the leaves
of infected grapevines was not detected in viruliferous nematodes, indicating a genetic bottleneck.
Our results provide new insights into the complexity of GFLV populations and the putative role of X.
index as reservoirs of virus diversity
From a movement-deficient grapevine fanleaf virus to the identification of a new viral determinant of nematode transmission
Grapevine fanleaf virus (GFLV) and arabis mosaic virus (ArMV) are nepoviruses responsible
for grapevine degeneration. They are specifically transmitted from grapevine to grapevine by two
distinct ectoparasitic dagger nematodes of the genus Xiphinema. GFLV and ArMV move from cell to
cell as virions through tubules formed into plasmodesmata by the self-assembly of the viral movement
protein. Five surface-exposed regions in the coat protein called R1 to R5, which differ between the
two viruses, were previously defined and exchanged to test their involvement in virus transmission,
leading to the identification of region R2 as a transmission determinant. Region R4 (amino acids
258 to 264) could not be tested in transmission due to its requirement for plant systemic infection.
Here, we present a fine-tuning mutagenesis of the GFLV coat protein in and around region R4 that
restored the virus movement and allowed its evaluation in transmission. We show that residues
T258, M260, D261, and R301 play a crucial role in virus transmission, thus representing a new viral
determinant of nematode transmission
“Interactive Technology Assessment” and Beyond: the Field Trial of Genetically Modified Grapevines at INRA-Colmar
International audienc
Inhibition of CD203c membrane up-regulation in human basophils by high dilutions of histamine: a controlled replication study
none5noPrevious research suggests that human basophil activation may be inhibited by histamine even at extremely low doses (high dilutions).
In our experiment, membrane up-regulation of CD203c, which proved to be a more consistent activation marker than CD63, was significantly inhibited in samples treated with histamine at the dilutions of 2C, 12C, 14C, 15C and 16C. Control water dilutions/succussions did not show any significant effect. Therefore, using a strictly standardized flow cytometry protocol and a new dilution/succussion procedure, we have shown that low and high dilution of histamine do inhibit CD203c up-regulation in anti-IgE stimulated basophils.mixedS. Chirumbolo; M. Brizzi; R. Ortolani; A. Vella; P. BellaviteS. Chirumbolo; M. Brizzi; R. Ortolani; A. Vella; P. Bellavit
Dose-effect study of Gelsemium sempervirens in high dilutions on anxiety-related responses in mice
Introduction
This study was designed to investigate the putative anxiolytic-like activity of ultra-low doses of Gelsemium sempervirens (G. sempervirens), produced according to the homeopathic pharmacopeia.
Methods
Five different centesimal (C) dilutions of G. sempervirens (4C, 5C, 7C, 9C and 30C), the drug buspirone (5 mg/kg) and solvent vehicle were delivered intraperitoneally to groups of ICR-CD1 mice over a period of 9 days. The behavioral effects were assessed in the open-field (OF) and light\u2013dark (LD) tests in blind and randomized fashion.
Results
Most G. sempervirens dilutions did not affect the total distance traveled in the OF (only the 5C had an almost significant stimulatory effect on this parameter), indicating that the medicine caused no sedation effects or unspecific changes in locomotor activity. In the same test, buspirone induced a slight but statistically significant decrease in locomotion. G. sempervirens showed little stimulatory activity on the time spent and distance traveled in the central zone of the OF, but this effect was not statistically significant. In the LD test, G. sempervirens increased the % time spent in the light compartment, an indicator of anxiolytic-like activity, with a statistically significant effect using the 5C, 9C and 30C dilutions. These effects were comparable to those of buspirone. The number of transitions between the compartments of the LD test markedly increased with G. sempervirens 5C, 9C and 30C dilutions.
Conclusion
The overall pattern of results provides evidence that G. sempervirens acts on the emotional reactivity of mice, and that its anxiolytic-like effects are apparent, with a non-linear relationship, even at high dilutions
A model for homeopathic remedy effects: low dose nanoparticles, allostatic cross-adaptation, and time-dependent sensitization in a complex adaptive system
BACKGROUND: This paper proposes a novel model for homeopathic remedy action on living systems. Research indicates that homeopathic remedies (a) contain measurable source and silica nanoparticles heterogeneously dispersed in colloidal solution; (b) act by modulating biological function of the allostatic stress response network (c) evoke biphasic actions on living systems via organism-dependent adaptive and endogenously amplified effects; (d) improve systemic resilience. DISCUSSION: The proposed active components of homeopathic remedies are nanoparticles of source substance in water-based colloidal solution, not bulk-form drugs. Nanoparticles have unique biological and physico-chemical properties, including increased catalytic reactivity, protein and DNA adsorption, bioavailability, dose-sparing, electromagnetic, and quantum effects different from bulk-form materials. Trituration and/or liquid succussions during classical remedy preparation create “top-down” nanostructures. Plants can biosynthesize remedy-templated silica nanostructures. Nanoparticles stimulate hormesis, a beneficial low-dose adaptive response. Homeopathic remedies prescribed in low doses spaced intermittently over time act as biological signals that stimulate the organism’s allostatic biological stress response network, evoking nonlinear modulatory, self-organizing change. Potential mechanisms include time-dependent sensitization (TDS), a type of adaptive plasticity/metaplasticity involving progressive amplification of host responses, which reverse direction and oscillate at physiological limits. To mobilize hormesis and TDS, the remedy must be appraised as a salient, but low level, novel threat, stressor, or homeostatic disruption for the whole organism. Silica nanoparticles adsorb remedy source and amplify effects. Properly-timed remedy dosing elicits disease-primed compensatory reversal in direction of maladaptive dynamics of the allostatic network, thus promoting resilience and recovery from disease. SUMMARY: Homeopathic remedies are proposed as source nanoparticles that mobilize hormesis and time-dependent sensitization via non-pharmacological effects on specific biological adaptive and amplification mechanisms. The nanoparticle nature of remedies would distinguish them from conventional bulk drugs in structure, morphology, and functional properties. Outcomes would depend upon the ability of the organism to respond to the remedy as a novel stressor or heterotypic biological threat, initiating reversals of cumulative, cross-adapted biological maladaptations underlying disease in the allostatic stress response network. Systemic resilience would improve. This model provides a foundation for theory-driven research on the role of nanomaterials in living systems, mechanisms of homeopathic remedy actions and translational uses in nanomedicine
Electronic structure model for single B, C or N adatoms upon graphite
An extra-orbital tight-binding scheme and a repulsive Born-Mayer model are used to determine the total adsorption energy of a 2p adatom (B, C or N) at the surface of graphite. The corresponding electronic structure of the adsorbed atom is deduced for the most stable (hollow) position. Our model allows us to exhibit an increase of the local density of states on the adatom and a decrease of charge transfer (from adatom to carbon) when going from boron to nitrogen
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