1,721,040 research outputs found
Moderately severe osteogenesis imperfecta: biochemical studies showing variable defect localization in the triple-helical domain of type I collagen.
No full textThis report describes the biochemical investigations on six patients affected by a moderate form of Osteogenesis Imperfecta (type IV according to the Sillence classification). Biochemical characterization of type I collagen produced by skin fibroblasts showed considerable heterogeneity: in three patients out of six, collagen appeared normal; while in the three others a structural defect in the protein was present. In these probands the mutations were localized in different regions of the triple helix domain (corresponding to peptides alpha 1(I)CB6 and alpha 1(I)CB7). In two probands showing the defect in alpha 1(I)CB7, a decrease of the thermal stability of the protein was present
Stability of type I collagen peptide trimers.
No full textAs indices of triple helix stability of type I collagen CNBr peptide homotrimers, Delta G degrees for monomer-trimer transitions and melting temperatures were obtained from circular dichroism measurements at increasing temperatures. The data were compared with the stability of the parent native molecule. Peptides were found to have a lower stability than the whole collagen molecule. The general implication is that the coordinated water molecules play a key role in determining collagen triple helical stability and high cooperativity at melting. Other factors (monomer stability, ionic and hydrophobic factors, variations of composition, specific sequence) could also contribute towards peptide stability; these factors could explain the data obtained in the case of peptide alpha 1(I) CB3
Extracellular matrix deposition in cultured dermal fibroblasts from four probands affected by osteogenesis imperfecta.
No full textType I procollagen biosynthesis and matrix deposition were studied in cultured fibroblasts of four probands affected by Osteogenesis Imperfecta and in whom the mutations have been characterized. The mutations along the triple helix altered all biochemical parameters considered, i.e. thermal stability, kinetics of procollagen secretion and rate of maturation from procollagen to collagen. The biochemical findings were peculiar for each case considered, but there was no correlation between biochemical parameters and clinical phenotype. In all our probands, regardless of the clinical severity, mutant chains appeared in the insoluble matrix formed by fibroblasts cultured in the presence of dextran sulfate. The densitometric scanning revealed a relative increased amount of fibronectin, suggesting that the matrix contained a lower quantity of type I collagen. Furthermore, the amount of mutant chains found in the insoluble fraction was clearly less than expected, considering that 75% of new synthesized trimers are abnormal. Therefore, in the presence of a mutation, the protein available for extracellular matrix formation is reduced and the mutant trimers incorporated in the matrix probably interfere with normal fibril performance. The abnormal fibril morphology has a dramatic effect in bone, interfering presumably with a correct mineral deposition and interactions with non/collagenous bone proteins
Prolidase deficiency: biochemical study of erythrocyte and skin fibroblast prolidase activity in Italian patients.
No full textDiastrophic dysplasia sulfate transporter (DTDST) gene is not involved in pseudodiastrophic dysplasia
No full textPossible role of overglycosylation in the type I collagen triple helical domain in the molecular pathogenesis of osteogenesis imperfecta.
No full textThe underlying defect in patients affected by a form of osteogenesis imperfecta (OI) clarified at the molecular level regards the amount or the structure of type I collagen synthesized. This leads to a decreased and/or abnormal mineral deposition in bone and affects bone mass and/or strength. Abnormal interactions between collagen molecules in the presence of mutant trimers could give rise to abnormal fibrils, which, in turn, can determine incorrect interactions with noncollagenous matrix macromolecules. The interactions can be disturbed or modulated by an abnormal distribution on the collagen fibril surface of electrically charged or hydrophobic groups, or by an increased presence of sugar moieties linked to hydroxylysyl residues due to chain post-translational overmodifications (lysyl overhydroxylation and hydroxylysyl overglycosylation) of the portion of the triple helical domain of abnormal type I collagen molecules N-terminal with respect to the defect localization
Complete resolution of imidodipeptide mixtures in urine of prolidase-deficient patients using micellar electrokinetic chromatography.
No full textThe use of capillary zone electrophoresis as an efficient method for the identification of urinary imidodipeptides of prolidase-deficient patients has already been reported. However, owing to the complexity of the components excreted, the resolution of electrophoretic patterns obtained was poor. Here we examine the use of micellar electrokinetic chromatography to enhance peak resolution in order to obtain better insight into the electropherograms of patients' urine. The usefulness of sodium dodecyl sulphate as surfactant is reported: refined electropherograms were achieved using 35 mM sodium borate, pH 8.3 containing 65 mM sodium dodecyl sulphate. Almost all peaks were baseline separated, collected and sequenced. This allowed us to define the exact imidodipeptide composition of patients' urine. The possibility of identifying and thus quantifying each single peak means that comparison of urinary imidodipeptide excretion patterns from different patients can be made and the hypothesis that peptide patterns can be correlated with differing clinical severity can be investigated
Separation of closely related peptide substrates of human proteinases by micellar electrokinetic chromatography with anionic and nonionic surfactants.
No full textIn order to use micellar electrokinetic chromatography to determine the proteolytic activity of different proteinases simultaneously present in physiological fluids, the technique must be able to separate mixtures of substrates with closely related structures. In an attempt to determine the best electrophoretic conditions for resolving six p-nitroanilide peptides used as synthetic substrates of the elastolytic enzymes (human neutrophil elastase, cathepsin G, Pseudomonas aeruginosa elastase) most commonly involved in pulmonary diseases, we investigated the efficiency of ionic and nonionic surfactants in achieving the separation of this complex mixture. The results presented here show that, of all the electrophoretic systems tested, 30 mM sodium tetraborate, pH 9.3, containing 25 mM Brij 35 as micellar agent offered the best performance; the separation efficiency of peptides is greater than that obtained with other reagents and all peaks are baseline resolved and unambiguously identifiable. Analysis of the micelle-solute interaction with the surfactants investigated allowed better definition of the mechanism involved in the distribution of these peptides to the micelles and identification of some structural features that determined the magnitude of the micelle peptide complex formation
Effect of different surfactants on the separation by micellar electrokinetic chromatography of a complex mixture of dipeptides in urine of prolidase-deficient patients.
No full textProlidase deficiency is a severe disorder characterized by massive excretion of metabolites with closely related structures. At present, micellar electrokinetic chromatography is the separation method which provides the highest selectivity of structurally similar solutes. However, the structure of a surfactant can greatly affect the selectivity of separation depending on factors such as the length of hydrophobic alkyl chain or the nature of the hydrophilic group. Here we investigated the effect of three non-ionic and four anionic detergents for obtaining the best separation conditions for resolving imidodipeptide mixtures. The effect on resolution of variables such as temperature, surfactant concentrations and organic solvents was also examined. The greatest resolution was obtained at the lowest temperature studied (10 degrees C) using 50 mM sodium borate, pH 9.3 containing 50 mM pentanesulfonate and 10% (v/v) methanol. Under these experimental conditions almost all excreted components were baseline separated and identified
Evaluation of the TiMo12Zr6Fe2 alloy for orthopaedic implants: in vitro biocompatibility study by using primary human fibroblasts and osteoblasts
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