1,721,102 research outputs found
BIOMATERIALE PER DISPOSITIVI MEDICI, IN PARTICOLARE PROTESI
No full textL'invenzione riguarda un biomateriale per dispositivi medici, in particolare protesi, che comprende come base un polimero poliolico. Il biomateriale trova applicazione in dispositivi medici e come portatore di farmaco per essere applicato in sistemi di DDS (drug delivery System, sistema di rilascio di farmaci)
Nuovo metodo HPLC per la determinazione del contenuto degli amminoacidi liberi presenti negli idrolizzati proteici ottenuti dal carniccio.Vicenza 26.2.1999
No full textExperimental and theoretical studies on three spiromuscar-3-one M1 agonist derivatives
No full textMuscarone analogues are compounds that have been proposed for the prevention or treatment of senile dementias. ARL-16607 1), ARL-15467 (11), ARL-14995 (III) and YM-796 (IV) are spiromuscar-3-one derivatives and behave as muscarinic M-1 agonists, with different binding selectivity and efficacy at the M, receptors. In this work, we have elucidated the solid-state structures of I-III and compared the results obtained with the data available in the literature for TV.
The solid-state arrangements of I-IV have then been used to input a series of theoretical calculations. For each molecule, eight conformations have been modeled and the obtained structures (1-32) have been submitted to a series of molecular dynamics/simulated annealing and molecular mechanics calculations aimed to explore the conformational freedom of the spiromuscar-3-one moiety. Some hints about the reactivity of I-IV have been obtained by performing Hartree-Fock, density functional theory and semiempirical quantum mechanics calculations. These studies analyzed the properties of the frontier orbitals and of the molecular electrostatic potential of I-IV.
The information gained has been used to explain the better efficacy and poorer selectivity shown by III. Our results suggest that the behavior of III is due to its smaller size, the features of its molecular surface, the shape of its electrostatic potential and the orientation of its reactive domains
Spectroscopic study on the structure and stability of beef liver arginase.
No full textThe secondary and tertiary structure of the oligomeric arginase (EC 3.5.3.1) from beef liver was investigated by circular dichroism (CD) and fluorescence measurements. The far-ultraviolet CD spectrum of the enzyme at neutral pH is indicative of high helical content. The intrinsic fluorescence emission of the protein is due to tryptophan, the contribution of tyrosine being small. Upon excitation at 295 nm, the maximum of emission occurs at 330 nm, implying that the tryptophan residues are rather buried in a hydrophobic interior of the protein. Ethylenediaminetetraacetic acid (EDTA), which inactivates the enzyme by removing the functional Mn2+-ion from the enzyme, does not dissociate the enzyme into subunits, nor affect noticeably its secondary and tertiary structure. Inactivation occurs in the acid pH range, being complete at pH below 4. However, acidification up to pH 1.5 produced only limited changes in the far-ultra-violet CD spectrum and intrinsic fluorescence emission properties. The enzyme shows noteworthy thermal stability, as shown by measuring the residual activity after heating and by evaluating the temperature dependence of the CD signal at 220 nm and the intensity of emission fluorescence. A temperature of half inactivation (Tm) of 77 degrees was determined upon heating the enzyme at pH 7.5 in the presence of Mn2+-ions for 10 min; in the presence of EDTA, Tm is shifted to 55 degrees. Taken together, these observations indicate that the structural stability of beef liver arginase arises from a clustering of hydrophobic amino acids and from Mn2+-ion binding
Chemical cleavage of tryptophanyl and tyrosyl peptide bonds via oxidative halogenation mediated by o-iodosobenzoic acid.
No full textFluorescence properties of neutral protease from Bacillus subtilis.
No full textThe fluorescence properties of neutral protease from B. subtilis have been investigated under a variety of conditions and the results compared with those previously reported for the homologous metalloendopeptidase thermolysin (Fontana et al., 1977). In the pH range 5-9 neutral protease displayed a quite unusual fluorescence emission spectrum with a maximum near 320 nm, when excitation was at 295 nm. At this wavelength the protein fluorescence is due to tryptophan residues only, which, considering their blue-shift emission, appear rather buried in the hydrophobic protein interior. Specific removal of the functional zinc ion from the enzyme with tetraethylenepentamine does not lead to alteration of the microenvironment around tryptophan residues. On the other hand, removal of both zinc and calcium with ethylenediaminetetraacetic acid brings these residues in full contact with the aqueous solvent medium. Fluorescence quenching measurements were also used to determine the exposure of tryptophan residues in the native enzyme as well as in the presence of chelating agents and protein denaturants. Melting profile experiments carried out by monitoring the fluorescence intensity at 320 nm indicated a cooperative transition at 60-70 degrees. Temperature effects were also determined under conditions perturbed with respect to pH, guanidine hydrochloride and chelating agents. The results reveal differences in the fluorescence properties of the tryptophanyl residues of B. subtilis neutral protease relative to those of thermolysin, which are interpretable considering the location of these residues in the sequences of the two homologous proteins
Thermolysin and Bacillus subtilis neutral protease. Conformation and stability of two homologous neutral metalloendopeptidases.
No full textA comparative study on thermolysin from Bacillus thermoproteolyticus and neutral protease from Bacillus subtilis involving (far- and near-ultraviolet circular dichroism (CD) and immunological techniques is reported. These enzymes are homologous metalloendopeptidases, having similar size, kinetic behaviour, substrate specificity and susceptibility to inhibitors. The far-ultraviolet CD spectrum of each protein shows a minimum at 208 and a shoulder near 220 nm; differences in the extent of ellipticity, however, have been observed. Estimates of secondary structure obtained by quantitation of the far-ultraviolet CD spectra indicated a higher helicity of neutral protease relative to thermolysin. In the presence of ethylenediaminetetraacetic acid, which removes calcium and the functional zinc ion from the metalloenzymes, neutral protease is immediately denatured, whereas thermolysin maintains a globular structure, although thermolabile. On the other hand, the zinc-specific chelating agent tetraethylenepentamine does not have measurable effects on the conformation and conformational stability of either protein. Marked higher stability to temperature and guanidine hydrochloride were observed for thermolysin as compared with neutral protease, as indicated by monitoring conformational transitions with CD measurements at 220 nm. Antisera prepared in rabbits using thermolysin as immunogen do not cross-react with neutral protease, indicating differences of surface structure between the two proteins. On the basis and limitations of the techniques employed, it is proposed that the two sequentially and functionally homologous metalloendopeptidases may have similar conformations at specific regions (active and binding sites, at least) of the polypeptide chain essential for biological function, while some variability in the structure of other regions may be tolerated
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