1,296 research outputs found
Photovoltaics in Net Zero Energy Buildings and Clusters: Enabling the Smart City Operation☆
Abstract From 2012 to comply with the ED 2010/31/EU and its recasts, all new buildings will perform as Nearly Zero Energy Buildings (NearlyZEBs). Buildings are going to be transformed through a careful design into energy generation systems, and the conventional, centralized system of energy generation is going to be replaced by a "web" of energy generation systems. Photovoltaics (PV) seems to be one of the most suitable energy generation technologies for enabling this change, thanks to its "fair" cost, technical features, and multifunctional use in the building's envelope, as well as in the urban environment. PV will be an indispensable technology for Net Zero Energy Buildings (NetZEBs), with the consequence of being a kind of "ubiquitous" technology, also suitable for added uses than the traditional ones. For example: in addition to the multifunctional use in the building's envelope, it might offer advanced services for improving the efficiency and participation in the city processes. A multidisciplinary investigation on possible ways for PV and NetZEBs to change the future urban scenario is proposed, focusing on design, energy management and technological issues to support a Smart City (SC) vision
Probing the Ultrastructure of Spheroids and Their Uptake of Magnetic Nanoparticles by FIB–SEM
Spheroids are 3D cellular systems largely adopted as model for high-throughput screening of molecules and diagnostics tools. Furthermore, those cellular platforms also represent a model for testing new delivery carries for selective targeting. The coupling between the 3D cell environment and the nanovectors can be explored at the macroscale by optical microscopy. However, the nanomaterial-cell interplay finds major action at the single cell and extracellular matrix level with nanoscale interactions. Electron microscopy offers the resolution to investigate those interactions; however, the specimen preparation finds major drawbacks in its operation time and preciseness. In this context, focused ion beam and scanning electron microscopy (FIB–SEM) allows for fast processing and high resolution of the cell-nanomaterial interface. Here, in fact, a novel approach is shown to prepare large-area 3D spheroid cell culture specimens for FIB–SEM. Sectioning procedures are explored to preserve the peculiar structure of spheroids and their interaction with magnetic nanovectors. The results pave the way for advanced investigations of 3D cellular systems with nano and micromaterials relevant to tissue engineering, bioelectronics, and diagnostics
A hydrogel system based on a lactose-modified chitosan for viscosupplementation in osteoarthritis
Osteoarthritis (OA) is a chronic disease affecting joint functionality and often managed with hyaluronic acid
(HA) administration. In this study, a hydrogel based on a lactose-modified chitosan (CTL) reticulated with boric
acid has been developed as a viscosupplement for OA treatment. The rheological characterization allowed to
identify a composition whose properties were in line with those of commercial products (in the order of tens of
Pascal). The selected CTL-hydrogel showed biocompatibility and antioxidant activity in vitro, and it did not
influence cytokines release by macrophages. Degradation studies carried out over 24 h pointed out its higher
resistance to chemical degradation with respect to HA samples.
Overall, this study underlines the advantages of the CTL-hydrogel to address the treatment of OA and shed
light on an innovative application of CTL polymer, which is one of the main component of the proposed hydrogel
system and not used in mixture with other molecules
Near real time regional moment tensor estimation using italian broadband stations
Since 2002, the Istituto Nazionale di Geofisica e Vulcanologia (INGV) in Rome has started the installation of a high quality
regional broadband network throughout the Italian territory. Up today, the network consists of 125 stations equipped with 40 s
natural period instruments. The dense station coverage allows for the implementation of real-time regional moment tensor (MT)
estimation procedures such as that proposed by Dreger and Helmberger (1993).
The automatic MT algorithm uses real-time broadband waveforms continuously telemetered to INGV, and it is triggered for events
with magnitude greater than Ml 3.5. This is the lowermost value for which we have found it possible to obtain reliable MT determination
in the frequency band used in the inversion. The automatic solution is available within about 3-5 minutes after the earthquake
location. Each solution has an assigned quality factor dependent on the number of the station used in the inversion, and the godness
of fit between synthetic and observed data. MT is published on the web after revision by a seismologist.
Efforts are also made to evaluate MT solutions for earthquakes occurring in Italy and neighboring regions in the last years. The
results are compared to those obtained from application of other moment tensor methods. It is always found a good agreement
between the newly determined solutions and those from other methods.
Overall, fast and accurate moment tensor solutions are an important ingredient when attempting to estimate the recorded ground
shaking. Overall, in Italy, earthquakes in the magnitude range 3.5 – 5 are very common; the availability of their focal mechanisms
allows the mapping of the principal stress field axes leading to a better understanding of the ongoing tectonics
PHK from phenol hydroxylase of Pseudomonas sp. OX1. Insight into the role of an accessory protein in bacterial multicomponent monooxygenases
Bacterial multicomponent monooxygenases (BMMs) are members of a wide family of diiron enzymes that use molecular oxygen to hydroxylate a variety of aromatic compounds. The presence of genes encoding for accessory proteins not involved in catalysis and whose role is still elusive, is a common feature of the gene clusters of several BMMs, including phenol hydroxylases and several soluble methane monooxygenases. In this study we have expressed, purified, and partially characterized the accessory component PHK of the phenol hydroxylase from Pseudomonas sp. OX1, a bacterium able to degrade several aromatic compounds. The phenol hydroxylase (ph) gene cluster was expressed in Escherichia coli/JM109 cells in the absence and in the presence of the phk gene. The presence of the phk gene lead to an increase in the hydroxylase activity of whole recombinant cells with phenol. PHK was assessed for its ability to interact with the active hydroxylase complex. Our results show that PHK is neither involved in the catalytic activity of the phenol hydroxylase complex nor required for the assembly of apo-hydroxylase. Our results suggest instead that this component may be responsible for enhancing iron incorporation into the active site of the apo-hydroxylase
Results of patch-grafting of tissue infected by ‘Candidatus Phytoplasma pyri’ or by ‘Candidatus Phytoplasma prunorum’, respectively on pear and apricot plants cultivated in pot
Molecular analyses carried out either on the pear varieties ‘Conference’, ‘Comice’ and ‘William’ grafted on different rootstocks or on sixty-eight apricot varieties grafted on Myrobalan, showed the susceptibility of the tested combinations to 'Candidatus Phytoplasma pyri', transmitted by Cacopsylla pyri, and to 'Candidatus Phytoplasma prunorum', transmitted by Empoasca decedens, respectively. In order to find pear and/or apricot combinations immune to the associated Phytoplasma, several varieties grafted on new rootstock were tested in the period 2002-2008. 68 pear plants belonging to seven variety/rootstock combinations and 76 apricot plants belonging to seven combinations, all cultivated in pot, in greenhouse covered by anti-aphid tissue, were grafted with patches of infected tissues containing the specific phytoplasmas. Young healthy potted plants belonging to the pear combination ‘Comice’/P. communis and to the apricot combination ‘Palummella’/Myrobalan, both susceptible in open field to the associated phytoplasmas transmitted by the specific vectors, were also used and patch-grafted. Molecular analyses, carried out on nucleic acids extracted from leaf samples, to detect the presence of the pathogens, showed the pear variety ‘William’ grafted on Pyrus betulaefolia to be susceptible to 'Candidatus Phytoplasma pyri’. Neither the pear combination ‘Comice’/P. communis nor the apricot ‘Palummella’/Myrobalan 29 C, susceptible, in open field, to the associated phytoplasmas, became infected after patchgrafting under greenhouse conditions. Thus the results show that patch-grafting cannot be utilized in young potted plants for artificial transmission of these two phytoplasmas.Keywords: Phytoplasmas, source of immunity, variety/rootstock combination, molecular tests, insect proof green-hous
Evaluation of corneal distortion characteristics in different eyes using Scheimpflug camera device
Objective. To study the correlations between corneal distortion and morphological features in different kinds of eyes such as healthy ones (HE), ones previously undergone myopic PRK (PRKE), ones affected by keratoconus (KCE) and keratoconus eyes previously undergone corneal collagen crosslinking (CCCE). Materials and Methods. In this retrospective comparative study, a total of 106 HE of 106 patients, 58 PRKE of 58 patients, 33 KCE of 33 patients, 28 CCCE of 28 patients were included. A complete examination of all eyes was followed by tomographic (Pentacam, Oculus, Wetzlar, Germany) and biomechanical (Corvis ST, Oculus, Wetzlar, Germany) evaluation. Differences among Corvis ST (CST) parameters in the different groups have been analyzed. Linear regressions between central corneal thickness (CCT), intraocular pressure (IOP) and anterior corneal curvature measured with Simulated Keratometry (SK), versus corneal deformation parameters measured with Corvis ST in the different groups, have been run using SPSS software version 18.0. Results, HE showed a significant correlation between main curvature power of the cornea within the central 3 mm expressed in Diopters (KM) and 6 CST parameters; between CCT and 4 CST parameters and between IOP and 5 CST parameters. PRKE showed a significant correlation between KM and 3 CST parameters; between IOP and 4 CST parameters and none between CCT and CST parameters. KCE showed a significant correlation between SK and 3 CST parameters; between IOP and 3 CST parameters and none between CCT and CST parameters. CCCE showed a significant correlation between KM and 5 CST parameters; between CCT and 1 CST parameters and between IOP and 5 CST parameters. Discussion. Data of this study suggest that both corneal curvature and IOP could have a greater influence on the corneal deformation, compared to central corneal thickness (CCT). These results should be taken into account by further studies aiming to assess biomechanical corneal characteristics
Trends in h2s-donors chemistry and their effects in cardiovascular diseases
Hydrogen sulfide (H2S) is an endogenous gasotransmitter recently emerged as an important regulatory mediator of numerous human cell functions in health and in disease. In fact, much evidence has suggested that hydrogen sulfide plays a significant role in many physio-pathological processes, such as inflammation, oxidation, neurophysiology, ion channels regulation, cardiovascular protection, endocrine regulation, and tumor progression. Considering the plethora of physiological effects of this gasotransmitter, the protective role of H2S donors in different disease models has been extensively studied. Based on the growing interest in H2S-releasing compounds and their importance as tools for biological and pharmacological studies, this review is an exploration of currently available H2S donors, classifying them by the H2S-releasing-triggered mechanism and highlighting those potentially useful as promising drugs in the treatment of cardiovascular diseases
The Impact of Treated Urban Wastewaters and Flood Discharge on the Quality of Bathing Water
What do we know about the Adriatic Sea and the state of its health [...
Expression and purification of the recombinant subunits of toluene/o-xylene monooxygenase and reconstitution of the active complex.
This paper describes the cloning of the genes coding for each component of the complex of toluene/o-xylene monooxygenase from Pseudomonas stutzeri OX1, their expression, purification and characterization. Moreover, the reconstitution of the active complex from the recombinant subunits has been obtained, and the functional role of each component in the electron transfer from the electron donor to molecular oxygen has been determined. The coexpression of subunits B, E and A leads to the formation of a subcomplex, named H, with a quaternary structure (BEA)2, endowed with hydroxylase activity. Tomo F component is an NADH oxidoreductase. The purified enzyme contains about 1 mol of FAD, 2 mol of iron, and 2 mol of acid labile sulfide per mol of protein, as expected for the presence of one [2Fe-2S] cluster, and exhibits a typical flavodoxin absorption spectrum. Interestingly, the sequence of the protein does not correspond to that previously predicted on the basis of DNA sequence. We have shown that this depends on minor errors in the gene sequence that we have corrected. C component is a Rieske-type ferredoxin, whose iron and acid labile sulfide content is in agreement with the presence of one [2Fe-2S] cluster. The cluster is very sensitive to oxygen damage. Mixtures of the subcomplex H and of the subunits F, C and D are able to oxidize p-cresol into 4-methylcathecol, thus demonstrating the full functionality of the recombinant subunits as purified. Finally, experimental evidence is reported which strongly support a model for the electron transfer. Subunit F is the first member of an electron transport chain which transfers electrons from NADH to C, which tunnels them to H subcomplex, and eventually to molecular oxyge
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