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Query: UNIPROT:P02794 (ferritin)
 17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ferritin from the liver of fresh, salt and brackish water fishes was purified by thermal denaturation of liver homogenate followed by ammonium sulphate fractionation and Sephacryl S-300 gel filtration. Yield and iron content of purified fish ferritins were 0.016-0.026 mg/g of wet tissue and 4-14%, respectively. The iron content of ferritins from marine and brackish species was higher than from fresh water species. The phosphate/iron ratio ranged from 0.5 to 1.8 and was higher than mammalian ferritins. The fish ferritins have 5-6% neutral carbohydrate. Native gel electrophoresis and molecular weight analysis revealed the presence of a monomeric ferritin. SDS-gel electrophoresis and immunoblotting showed a single protein band of 21 kDa suggesting the presence of similar sized subunits in the native structure of fish ferritins. Isoelectric focusing revealed microheterogeneity with five to seven bands of pI values between 4.1 and 7.0. Variations in the amino acid composition were observed. Proline and arginine were not detected in murrel and salmon species, respectively. High proline and low tyrosine contents were recorded for perch ferritin. Immunological studies by non-competitive indirect ELISA revealed varying degrees of cross-reactivity. Mammalian ferritins exhibited a moderate cross-reactivity with anti-fish ferritin. On the contrary, very low or no cross-reactivity was observed between fish ferritin and anti-mammalian ferritin. Ferritins from bony fishes such as murrel and rohu exhibited a high degree of cross-reactivity with anti-shark ferritin. However, a moderate cross-reactivity was observed between shark and anti-murrel ferritin. Ferritin from marine bony fishes, salmon and mackerel and perch (brackish) showed a low to very low cross-reactivity with both the antisera.
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PMID:Purification and characterization of fish liver ferritins. 1048 Dec 57

Chronic nitric oxide (NO) inhibition causes hypertension and renal injury. Concomitant salt overload promotes massive albuminuria. We investigated the mechanisms whereby these treatments impair glomerular permselectivity. Adult male Munich-Wistar rats received either a standard-salt (SS; 0.5% Na) or high-salt (HS; 3.1% Na) diet and either no treatment or the NO inhibitor N(omega)-nitro-L-arginine methyl ester (L-NAME). At 30 days, albuminuria was moderate, the density of fixed anionic sites at the glomerular basement membrane (GBM), estimated by cationic ferritin binding, declined by approximately 35%, and the fractional clearance of 70-kDa neutral dextran (phi) rose moderately in rats receiving L-NAME and SS. Rats given L-NAME and HS exhibited massive albuminuria, whereas phi was nearly tripled. Depletion of GBM anionic sites was also seen in these rats. The GBM was thickened in both L-NAME-treated groups. These abnormalities were largely reversed after cessation of treatments. These results indicate that chronic L-NAME treatment promotes reversible albuminuria by impairing both glomerular size and charge selectivity. These effects likely reflect functional rather than structural disruption of the glomerular wall.
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PMID:Mechanisms of albuminuria in the chronic nitric oxide inhibition model. 1109 24

An apparatus consisting of two pumps, a mixer, a ferritin reactor, and a spectrophotometer was constructed to study the ability to trap various heavy metal ions (M2+) and the dynamics of a reconstituted ferritin reactor in flowing seawater. Reconstituted pig spleen ferritin (PSFr) is assembled from apo-protein shell to form a reconstituted iron core. The main components of the PSFr are its core, which contains an Fe2+:Pi stoichiometry of 6.0 +/- 0.5, reconstituted from pig spleen apoferritin (apo PSF), Fe2+, inorganic phosphate (Pi), and O2 (0.6 atm). The Fe3+-Pi clusters within the PSFr core exhibit resistance to salt ranging from 1% to 6% NaCl. The ferritin reactor consists of PSFr and an oscillating bag. Using the reactor, M2+ ions such as Cd2+, Zn2+, Co2+, and Mn2+ are directly trapped by the ferritin. We found a 1:2 +/- 0.2 stoichiometry of the trapped M2+ to the released iron as measured by chemical analysis or atomic absorption spectrometry; nontransient elements such as Na+, K+, Ca2+, etc., were scarcely trapped by the reactor. This study provides basic conditions for establishing a ferritin reactor and a convenient means for monitoring the pollution of heavy metal ions in seawater.
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PMID:Construction of a ferritin reactor: an efficient means for trapping various heavy metal ions in flowing seawater. 1119 68

BackgroundAbsolute iron deficiency, irrespective of aetiology, remains a major and worldwide cause of morbidity. After correction of the causative lesion, reconstitution of haemoglobin level and body iron stores is traditionally achieved with oral administration of ferrous salts. The latter have significant gastrointestinal tract side-effects that, in the short-term, may impair compliance. With protracted administration these products can cause lipid peroxidation which, in turn, may accelerate atherogenesis. An alternative formulation is an iron polymaltose complex where animal data supported a promoting effect of glycerophosphate. Setting and Trial Design This was a single-centre, open, randomised, multidose four treatment parallel group study. A standard dose of ferric polymaltose complex with two differing levels of glycerophosphate was compared with an equivalent amount of iron supplied as ferrous sulphate in anaemic volunteer blood donors. The endpoints were rate of haemoglobin rise and re-expansion of body iron stores reflected in blood ferritin concentration, as well as percentage saturation of transferrin. Secondary observations were changes in the proportion of hypochromic red cells during the course of treatment, erythropoietin levels and tolerability of the two formulations. Results Outcome in the rat model suggested that the utilisation of iron from polymaltose might be enhanced by glycerophosphate. However, in donors this difference was not evident and, accordingly, the data from the three polymaltose groups combined and compared to those receiving ferrous sulphate. The rate at which haemoglobin level improved, red cell indices returned to normal, and the number of hypochromic and microcytic red cells fell was not significantly different between the groups. Similarly the serum iron, percentage saturation of transferrin and red cell ferritin were comparable. In contrast the serum ferritin levels were higher for those receiving ferrous sulphate. Additionally, side-effects were significantly more frequently encountered with the latter preparation. Conclusion These data demonstrate that the addition of glycerophosphate, observed to be beneficial in rats, did not occur in humans. Secondly, in the blood donors, equivalent amounts of iron provided as the polymaltose, with or without glycerophosphate or ferrous sulphate, corrected haemoglobin concentration and morphologically abnormal erythropoiesis at comparable rates. Similarly iron stores are replenished to an equivalent extent as seen in the matching percentage saturation of transferrin and red cell ferritin levels. Interestingly, there is a discrepancy in the serum ferritin which is higher with the salt and this may reflect oxidative stress. Thirdly, corresponding efficacy can be achieved with better patient tolerance for the complex. Finally it is postulated that the iron polymaltose complex formulation more closely approximates the way in which enterocytes handle dietary iron and thus physiologic regulatory mechanisms would be expected to reciprocally slow down absorption as stores expand. Logically, therefore and, if confirmed, the latter finding suggests that this formulation may have a potential role in longer-term supplementation programmes.
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PMID:Erythrocytes: Better Tolerance of Iron Polymaltose Complex Compared with Ferrous Sulphate in the Treatment of Anaemia. 1139 4

The dpr gene is an antioxidant gene which was isolated from the Streptococcus mutans chromosome by its ability to complement an alkyl hydroperoxide reductase-deficient mutant of Escherichia coli, and it was proven to play an indispensable role in oxygen tolerance in S. mutans. Here, we purified the 20-kDa dpr gene product, Dpr, from a crude extract of S. mutans as an iron-binding protein and found that Dpr formed a spherical oligomer about 9 nm in diameter. Molecular weight determinations of Dpr in solution by analytical ultracentrifugation and light-scattering analyses gave values of 223,000 to 292,000, consistent with a subunit composition of 11.5 to 15 subunits per molecule. The purified Dpr contained iron and zinc atoms and had an ability to incorporate up to 480 iron and 11.2 zinc atoms per molecule. Unlike E. coli Dps and two other members of the Dps family, Dpr was unable to bind DNA. One hundred nanomolar Dpr prevented by more than 90% the formation of hydroxyl radical generated by 10 microM iron(II) salt in vitro. The data shown in this study indicate that Dpr may act as a ferritin-like iron-binding protein in S. mutans and may allow this catalase- and heme-peroxidase-deficient bacterium to grow under air by limiting the iron-catalyzed Fenton reaction.
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PMID:An iron-binding protein, Dpr, from Streptococcus mutans prevents iron-dependent hydroxyl radical formation in vitro. 1200 33

The effects of protein size on the adsorption capacity and rate is determined for an acrylamido-based polymeric anion-exchanger. The proteins lactalbumin, myoglobin, ovalbumin, BSA, conalbumin, IgG, and ferritin with molecular masses ranging from 15,000 to 450,000 were investigated. At high salt concentration (50 mM Tris-HCl containing 500 mM NaCl), only the smaller proteins lactalbumin and myoglobin gained access to a significant portion of the particle volume. The larger proteins were nearly completely excluded, in agreement with the results obtained for neutral macromolecules. By contrast, at low salt concentration (50 mM Tris-HCl), the adsorption capacity was very large (280-400 mg/ml of particle volume) for all the proteins studied except for ferritin, for which the capacity was much lower. This suggests that, provided the solute is not too large, the favorable electrostatic interaction overcomes the size exclusion effect. Adsorption rate measurements showed that mass transfer rates are also quite fast at low salt concentration. Effective diffusivities were determined by matching model and experimental results and were found to decrease substantially as the protein size increased. As previously observed, the homogeneous diffusion model was found to predict the experimentally observed trends with respect to protein concentration and boundary layer mass transfer effects.
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PMID:Protein adsorption on novel acrylamido-based polymeric ion-exchangers. IV. Effects of protein size on adsorption capacity and rate. 1235 Jan 6

The iron storage protein, apoferritin, has a cavity in which iron is oxidized and stored as a hydrated oxide core. The size of the core is about 7 nm in diameter and is regulated by the cavity size. The cavity can be utilized as a nanoreactor to grow inorganic crystals. We incubated apoferritin in nickel or chromium salt solutions to fabricate hydroxide nanoparticles in the cavity. By using a solution containing dissolved carbon dioxide and by precisely controlling the pH, we succeeded in fabricating nickel and chromium cores. During the hydroxylation process of nickel ions a large portion of the apoferritin precipitated through bulk precipitation of nickel hydroxide. Bulk precipitation was suppressed by adding ammonium ions. However, even in the presence of ammonium ions the core did not form using a degassed solution. We concluded that carbonate ions were indispensable for core formation and that the ammonium ions prevented precipitation in the bulk solution. The optimized condition for nickel core formation was 0.3 mg/mL horse spleen apoferritin and 5 mM ammonium nickel sulfate in water containing dissolved carbon dioxide. The pH was maintained at 8.65 using two buffer solutions: 150 mM HEPES (pH 7.5) and 195 mM CAPSO (pH 9.5) with 20 mM ammonium at 23 degrees C. The pH had not changed after 48 h. After 24 h of incubation, all apoferritins remained in the supernatant and all of them had cores. Recombinant L-ferritin showed less precipitation even above a pH of 8.65. A chromium core was formed under the following conditions: 0.1 mg/mL apoferritin, 1 mM ammonium chromium sulfate, 100 mM HEPES (pH 7.5) with a solution containing dissolved carbon dioxide. About 80% of the supernatant apoferritin (0.07 mg/mL) formed a core. In nickel and chromium core formation, carbonate ions would play an important role in accelerating the hydroxylation in the apoferritin cavity compared to the bulk solution outside.
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PMID:Fabrication of nickel and chromium nanoparticles using the protein cage of apoferritin. 1296 75

Horse-spleen apoferritin is known to crystallize in three different space groups, cubic F432, tetragonal P42(1)2 and orthorhombic P2(1)2(1)2. A structure comparison of the cubic and tetragonal forms is presented here. Both crystal forms were obtained by the vapor-diffusion technique and data were collected at 2.26 A (cubic crystal) and 2.60 A (tetragonal crystal) resolution. Two main differences were observed between these crystal structures: (i) whereas intermolecular contacts only involve salt-bridge type interactions via cadmium ions in the cubic structure, two types of interactions are observed in the tetragonal crystal (cadmium-ion-mediated salt bridges and hydrogen-bonding interactions) and (ii) cadmium ions bound in the threefold axes of ferritin molecules exhibit lower site-occupation factors in the tetragonal structure than in the cubic one.
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PMID:Comparison of the structures of the cubic and tetragonal forms of horse-spleen apoferritin. 1529 89

Bacterial iron storage proteins such as ferritin serve as intracellular iron reserves. Members of the DNA protection during starvation (Dps) family of proteins are structurally related to ferritins, and their function is to protect the genome from iron-induced free radical damage. Some members of the Dps family bind DNA and are thought to do so only as fully assembled dodecamers. We present the cloning and characterization of a Dps homolog encoded by the radiation-resistant eubacterium Deinococcus radiodurans and show that DNA binding does not require its assembly into a dodecamer. D.radiodurans Dps-1, the product of gene DR2263, adopts a stably folded conformation, as demonstrated by circular dichroism spectroscopy, and undergoes a transition to a disordered state with a melting temperature of 69.2(+/-0.1) degrees C. While a dimeric form of Dps-1 is observed under low-salt conditions, a dodecameric assembly is highly favored at higher concentrations of salt. Both oligomeric forms of Dps-1 exhibit ferroxidase activity, and Fe(II) oxidation/mineralization is seen for dodecameric Dps-1. Notably, addition of Ca(2+) (to millimolar concentrations) to dodecameric Dps-1 can result in the reduction of bound Fe(III). Dimeric Dps-1 protects DNA from both hydroxyl radical cleavage and from DNase I-mediated cleavage; however, dodecameric Dps-1 is unable to provide efficient protection against hydroxyl radical-mediated DNA cleavage. While dodecameric Dps-1 does bind DNA, resulting in formation of large aggregates, cooperative DNA binding by dimeric Dps-1 leads to formation of protein-DNA complexes of finite stoichiometry.
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PMID:Differential DNA binding and protection by dimeric and dodecameric forms of the ferritin homolog Dps from Deinococcus radiodurans. 1575 46

We have reanalyzed our former static small-angle x-ray scattering and photon correlation spectroscopy results on dense solutions of charged spherical apoferritin proteins using theories recently developed for studies of colloids. The static structure factors S(q), and the small-wave-number collective diffusion coefficient D(c) determined from those experiments are interpreted now in terms of a theoretical scheme based on a Derjaguin-Landau-Verwey-Overbeek-type continuum model of charged colloidal spheres. This scheme accounts, in an approximate way, for many-body hydrodynamic interactions. Stokesian dynamics computer simulations of the hydrodynamic function have been performed for the first time for dense charge-stabilized dispersions to assess the accuracy of the theoretical scheme. We show that the continuum model allows for a consistent description of all experimental results, and that the effective particle charge is dependent upon the protein concentration relative to the added salt concentration. In addition, we discuss the consequences of small ions dynamics for the collective protein diffusion within the framework of the coupled-mode theory.
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PMID:Diffusion and microstructural properties of solutions of charged nanosized proteins: experiment versus theory. 1610 86


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