1,093 research outputs found
SDAMS: SPOrt Data Archiving and Management System
SDAMS is the ensemble of database + software packages aimed to the archiving,
quick-look analysis, off-line analysis, network accessibility and plotting of
the SPOrt produced data. Many of the aspects related to data archiving,
analysis and distribution are common to almost all the astronomical
experiments. SDAMS ambition is to face and solve problems like accessibility
and portability of the data on any hardware/software platform in a way as
simpler as possible, though effective. The system is conceived in a way to be
used either by the scientific community interested in background radiation
studies or by a wider public with low or null knowledge of the subject. The
user authentication system allows us to apply different levels of access,
analysis and data retrieving. SDAMS will be accessible through any Web browser
though the most efficient way to use it is by writing simple programs. Graphics
and images useful for outreach purposes will be produced and put on the Web on
a regular basis.Comment: 4 pages, 3 PS figures, to appear in Proc. of the workshop
"Astrophysical Polarized Backgrounds", Bologna, October 9-12, 200
Nutraceutical Value of Citrus Flavanones and Their Implications in Cardiovascular Disease
Background- Cardiovascular diseases, including myocardial infarction, dyslipidaemia and coronary artery pathology, are a major cause of illness and death in Western countries. Therefore, identifying effective therapeutic approaches and their cellular signalling pathways is a challenging goal for medicine. In this regard, several epidemiological studies demonstrate a relationship between the intake of flavonoid-rich foods and the reduction of cardiovascular risk factors and mortality. In particular, flavonoids present in citrus fruits, such as oranges, bergamots, lemons and grapefruit (95% from flavanones), are emerging for their considerable nutraceutical value. Methods- In this review an examination of literature was performed while considering both epidemiological, clinical and pre-clinical evidence supporting the beneficial role of the flavanone class. We evaluated studies in which citrus fruit juices or single flavanone administration and cardiovascular risk factors were analysed; to identify these studies, an electronic search was conducted in PUBMED for papers fulfilling these criteria and written in English. Results- In addition to epidemiological evidence and clinical studies demonstrating that fruits in the Citrus genus significantly reduce the incidence of cardiovascular disease risk, pre-clinical investigations highlight cellular and subcellular targets that are responsible for these beneficial effects. There has been special attention on evaluating intracellular pathways involved in direct cardiovascular and cardiometabolic effects mediated by naringenin, hesperetin and eriodictyol or their glycosylated derivatives. Conclusions- Although some mechanisms of action remain unclear and bioavailability problems remain to be solved, the current evidence supports the use of a nutraceutical approach with citrus fruits to prevent and cure several aspects of cardiovascular disease
Direct Expression of Fluorinated Proteins in Human Cells for 19F In-Cell NMR Spectroscopy
: In-cell NMR spectroscopy is a powerful approach to study protein structure and function in the native cellular environment. It provides precious insights into the folding, maturation, interactions, and ligand binding of important pharmacological targets directly in human cells. However, its widespread application is hampered by the fact that soluble globular proteins often interact with large cellular components, causing severe line broadening in conventional heteronuclear NMR experiments. 19F NMR can overcome this issue, as fluorine atoms incorporated in proteins can be detected by simple background-free 1D NMR spectra. Here, we show that fluorinated amino acids can be easily incorporated in proteins expressed in human cells by employing a medium switch strategy. This straightforward approach allows the incorporation of different fluorinated amino acids in the protein of interest, reaching fluorination efficiencies up to 60%, as confirmed by mass spectrometry and X-ray crystallography. The versatility of the approach is shown by performing 19F in-cell NMR on several proteins, including those that would otherwise be invisible by 1H-15N in-cell NMR. We apply the approach to observe the interaction between an intracellular target, carbonic anhydrase 2, and its inhibitors, and to investigate how the formation of a complex between superoxide dismutase 1 and its chaperone CCS modulates the interaction of the chaperone subunit with the cellular environment
Dissolved CO2 in natural waters: development of an automated monitoring system and first application to Stromboli volcano (Italy)
The study of geochemical parameters applied to natural systems has
provided improved knowledge of geochemical mechanisms of gas/rock
dissolution in natural waters that are linked to gas–water and/or water–
rock interaction processes. Here we present the results of our studies focused
on the development of an automated monitoring system for measuring
the amount of dissolved CO2 in natural waters. The system is based on the
principle of a dynamic equilibrium between water and the air as the host
gas. The PCO2 measurements were carried out every four hours, and the
equilibration time was around 20 minutes. Moreover, application to the
thermal aquifer of Stromboli volcano during the 2009-2010 period is shown
and analyzed. The data highlight a clear correlation between the changes
in the PCO2 in the thermal aquifer and the changes in volcanic activity
SARS-CoV-2 Mproinhibition by a zinc ion: structural features and hints for drug design
The first structure of the SARS-CoV-2 main protease in complex with an isolated zinc ion provides solid ground for the design of potent and selective metal-conjugated inhibitors
Efficacy of isothiocyanate-based compounds on different forms of persistent pain.
Current pharmacotherapy for persistent pain related to neuropathy or articular diseases is unsatisfactory, due to the large number of unresponsive patients and side effects. Isothiocyanates (ITCs) are a class of natural or synthetic compounds characterized by the general formula R-NCS. ITCs show antihyperalgesic effects in models of central and peripheral nervous tissue injury and anti-inflammatory properties. The pharmacodynamics are strictly related to the release of the gasotransmitter hydrogen sulfide (H2S) from their moiety. In particular, phenyl ITC (PITC) and 3-carboxyphenyl ITC (3C-PITC) exhibit interesting slow H2S-release properties suitable for treating painful pathology. The aim of the present work was to evaluate the efficacy of PITC and 3C-PITC against mechanical hyperalgesia and spontaneous pain induced by nerve injury and osteoarthritis
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