Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Chelating agents disrupted the superficial layers on Spirillum putridiconchylium and adsorption of cationized ferritin indicated that both upper and lower surfaces of superficial layer fragments, as well as the outer membrane surface, possessed areas which were negatively charged. Growth of the bacterium in 1% casamino acids (vitamin free) resulted in cells which were devoid of the superficial layers, and negative staining of these cells revealed in amorphous precipitate together with a vesicular outer membrane component extruding from their surfaces into the medium. Addition of either 1 mM Ca2+ or 1 mM Sr2+ to the growth medium produced the typical regularly structured cell surface, whereas addition of equal concentrations of Li+, Na+, K+, Mg2+, Ba2+, Mn2+, Fe3+, or three polyamines produced the structureless surface.
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PMID:Dependence of the superficial layers of Spirillum putridiconchylium on Ca2+ or Sr2+. 1 67

Ferritin mRNAs are the first eukaryotic mRNAs for which a conserved, translational regulatory sequence has been identified. The sequence of twenty-eight nucleotides, called the IRE (iron regulatory element), is found in the 5'-noncoding region and is required for enhanced translation of ferritin mRNA by excess cellular iron; regulation occurs at initiation. The prediction of secondary structure in the IRE is a hairpin loop. We now report an analysis of the IRE structure in solution studied in natural ferritin mRNAs [H and H'(M) subunits] by primer extension, after modification or cleavage by dimethyl sulfate, RNAases T1 and V1, and the chemical nuclease 1, 10-phenanthroline-copper (OPCu) which cleaves single-stranded and bulged regions of RNA. Overall, the structure in solution of the ferritin mRNA regulatory region is a hairpin loop, with magnesium-sensitive features, in which half the stem is provided by the IRE and half by flanking regions; only secondary structure is conserved in the flanking regions. Predicted bulges or internal loops along the stem were clearly detected by OPCu but were missed by the more bulky probe RNAase T1, indicating the efficacy of OPCu in probing subtle features of RNA structure. Magnesium-dependent deviations from the predicted structure were observed in the stem between the hairpin loop and the bulge at C6. The location of the IRE in relation to the initiator AUG or the cap is variable in different ferritin mRNAs. However, the number of nucleotides in the base-paired flanking regions of known ferritin mRNAs is proportional to the distance of the IRE from the cap and places the secondary/tertiary structure 8-10 nucleotides from the cap where interference with initiation is likely.
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PMID:Structure of the 5' untranslated regulatory region of ferritin mRNA studied in solution. 238 28

Rabbit muscle phosphoglucomutase was irreversibly inactivated upon preincubation with vitamin C (Vit C). Fe(III), NADH.NADH oxidase.Fe(III), or ferritin.Vit C. Substrate, glucose 1-phosphate and Mg2+ afforded partial protection. No altered amino acid could be detected in the inactive enzyme. Enzyme so inactivated was more susceptible to trypsin. More importantly, during inactivation, the enzyme lost up to 70% of its enzyme-bound phosphate; the completely inactivated enzyme retained the remainder of the bound phosphate which was isolatable as phosphoserine residing in the 22-amino acid long tryptic peptide. Free phosphoserine as well as those in phosphorylase alpha and phosphocasein were resistant to the oxidizing system, suggesting that the phosphoserine of phosphoglucomutase is uniquely vulnerable to these treatments. Alternatively, a fraction of the total 1 mol of phosphate in the phosphoform of phosphoglucomutase may not be associated with phosphoserine. Phosphoglyceromutase, which has phosphohistidine at its active site, was also inactivated by the oxidizing system. However, it did not release any of the bound phosphate.
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PMID:Vit C.Fe(III) induced loss of the covalently bound phosphate and enzyme activity of phosphoglucomutase. 315 31

Isolated rat liver lysosomes were incubated with [14C]methemoglobin under various conditions. Optimal pH for the in vitro proteolysis was found to be 4-5. To evaluate whether or not degradation of added proteins could be due to enzyme leakage the integrity of the lysosomes was measured. Isolated lysosomes were found to be stable for up to 10 min of incubation at pH 5.5 and for 30 min at pH 7. The degradation of three different proteins (methemoglobin, ovalbumin, and lysozyme) was analyzed. No correlation was detected between rate of breakdown and physical properties of the proteins. Leupeptin, chloroquine, and propylamine inhibited proteolysis of added proteins by 45-65% in both neutral and acid milieu. Possible energy requirement was tested by the addition of Mg2+ and ATP to the incubation medium. A dose-dependent increase in proteolytic rate was found when ATP was added to the lysosomal suspension, a finding most likely due to acidification of the lysosomes and ensuing increased degradation. GTP and ITP were somewhat less effective. The noncleavable ATP analogue 5'-adenylylimidodiphosphate gave no stimulation. The ATP-driven proteolysis was inhibited by ethylmaleimide. Isolated lysosomes were also incubated with ferritin in order to visualize a possible uptake process of a protein in the electron microscope. Following incubation, ferritin particles were seen inside intralysosomal vesicles which appeared to be formed by invagination of the lysosomal membrane, a process designated microautophagy. The results thus support the notion that isolated lysosomes may micropinocytose and degrade exogenously added proteins and that this process is ATP dependent.
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PMID:Uptake--microautophagy--and degradation of exogenous proteins by isolated rat liver lysosomes. Effects of pH, ATP, and inhibitors of proteolysis. 396 51

Two different procedures were employed for the isolation of sarcolemma from the rat heart and the membranes were studied with respect to the presence of cell surface material as well as their functional characteristics. Both hypotonic shock-LiBr treatment method (fraction HL) and sucrose density gradient method (fraction S) yielded membranes enriched 8 to 13 fold with respect to Na+-K+ ATPase and adenylate cyclase activities in comparison to heart homogenate. Cell surface material was demonstrated on the outer surface of the vesicles only in fraction HL with cationic dyes, lanthanum and ferritin, applied either to the isolated fractions or perfused in the heart through coronaries. Fraction HL also had high sialic acid content. ATP independent Ca2+ binding in fraction HL was about 6 times more than that in fraction S which had little sialic acid and showed no cell surface staining with cationic dyes. On the other hand, ATP-dependent Ca2+ binding and Ca2+-stimulated Mg2+ dependent ATPase activities in fraction S were 4 to 6 times higher than those in fraction HL. Epinephrine stimulated adenylate cyclase in fractions HL and S by 24 and 3% whereas ouabain was found to inhibit Na+-K+ ATPase in these fractions by 80 and 10% respectively. A mild treatment of the membranes with deoxycholate to eliminate the semipermeable characteristics or effects of sidedness of the vesicles resulted in an almost complete ouabain inhibition of Na+-K+ ATPase in both fractions. These data suggest that presence of cell surface material as well as membrane sidedness has an important role in in vitro expression of functional characteristics of sarcolemma. It is emphasized that sarcolemmal preparations containing cell surface material will provide information more realistic to the native conditions in situ.
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PMID:Differences in sarcolemmal preparations: cell surface material and membrane sidedness. 619 85

Iron can be released from ferritin and utilized by isolated rat liver mitochondria for the synthesis of heme. Mobilization of iron from ferritin is initiated by the binding of ferritin to the mitochondria in an manner compatible with binding sites or receptors for ferritin on the mitochondria. The binding completes rapidly, it is independent of temperature, saturable, reversible and enhanced by K+ and Mg2+. The amount of ferritin binding sites is approx. 0.8 pmol/mg mitochondrial protein, and the affinity constant is 6.4 . 10(6)M-1. The binding kinetics correlate well with the functional features of the ferritin-mitochondrial interaction: i.e. mobilization of iron from ferritin followed by insertion of the iron into heme. The results support the concept of ferritin as a possible donor of iron to the mitochondria.
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PMID:Relevance of ferritin-binding sites on isolated mitochondria to the mobilization of iron from ferritin. 628 Jul 75

Chrysotile asbestos interacts with mucin-secreting cells of tracheal organ cultures, causing an increase in secretion of mucin into the culture medium. This response occurs in the absence of obvious morphologic damage to tracheal epithelial cells. We speculated that asbestos-induced hypersecretion was regulated by the interaction of fibers with specific carbohydrate residues on the cell surface. To test this hypothesis, lectins, i.e., proteins with a high affinity for mono- and oligosaccharides on the plasma membrane, were added to tissues 30 min before addition of chrysotile. Secretion of mucin into the medium was then determined over a 2-hr period by using incorporation of 3H-glucosamine. Blocking of alpha-D-mannose and alpha-D-glucose residues inhibited chrysotile-induced hypersecretion (p less than 0.05), whereas lectins blocking residues of alpha-D-N-acetylgalactosamine, beta-D-N-acetylglucosamine, alpha-L-fucose and sialic acids were ineffective. Preincubation of cultures with carboxypeptidase A or phospholipase A2, but not with neuraminidase, diminished mucin secretion caused by chrysotile. To determine if the positive surface charge of chrysotile was important in interaction with mucin cells, we examined comparatively the effects of various polycations (cationic ferritin, polylysine, DEAE-dextran) and chrysotile after leaching of fibers to remove Mg2+. Although use of polycations enhanced secretion of mucin, effects were not as striking as those observed with chrysotile. In contrast, leached chrysotile failed to elicit a hypersecretory response. These results suggest the interaction of a positively charged component (presumably Mg2+) of chrysotile with glycolipids and glycoproteins containing terminal residues of alpha-D-mannose or alpha-D-glucose.
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PMID:Studies using lectins to determine mineral interactions with cellular membranes. 631 63

The ultrastructural localization of the Ca2+ + Mg2+-dependent ATPase of sarcoplasmic reticulum in rat gracilis muscle was determined by indirect immunoferritin labeling of ultrathin frozen sections. Simultaneous visualization of ferritin particles and of adsorption-stained cellular membranes showed that the Ca2+ + Mg2+-ATPase was concentrated in the longitudinal sarcoplasmic reticulum and in the nonjunctional regions of the terminal cisternae membrane but was virtually absent from mitochondria, plasma membranes, transverse tubules, and junctional sarcoplasmic reticulum. Ferritin particles were found preponderantly on the cytoplasmic surface of the membrane, in agreement with published data showing an asymmetry of the Ca2+ + Mg2+-ATPase within the sarcoplasmic reticulum membrane. Comparison of the density of ferritin particles in fast and slow myofibers suggested that the density of the Ca2+ + Mg2+-ATPase in the sarcoplasmic reticulum membrane in a fast myofiber is approximately two times higher than in a slow myofiber.
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PMID:Ultrastructural localization of the Ca2+ + Mg2+-dependent ATPase of sarcoplasmic reticulum in rat skeletal muscle by immunoferritin labeling of ultrathin frozen sections. 646 Jul 75

The binding of Cd2+, Zn2+, Cu2+, Ni2+, Co2+, Mn2+, and Mg2+ to apo, holo, reconstituted horse spleen ferritin (HoSF), and native holo HoSF with phosphate removed was measured by gel-exclusion chromatography. Three classes of strong binding interactions (Kd < 10(-7) M) with apo HoSF at pH 7.5 were found for the various M2+ studied: high stoichiometric binding (30-54 M2+/HoSF) for Cd2+, Zn2+, Cu2+, with two protons released per metal bound; intermediate binding (16 M2+/HoSF) for Ni2+ and Co2+, with one proton released per metal bound; and low levels of binding (2-12 M2+/HoSF) for Mn2+, Mg2+, and Fe2+, with < 0.5 protons released per metal bound. M2+ binding to apo HoSF was nearly abolished at pH 5.5, except for Fe2+ and Cu2+, which remained unaffected by pH alteration. Holo HoSF bound much higher levels of M2+, a result directly attributable to the presence of phosphate binding sites. This conclusion was confirmed by decreased binding of M2+ to HoSF reconstituted in the absence of phosphate and by native holo HoSF with phosphate chemically removed. The binding of Cd2+ to apo HoSF was 54 per HoSF, but in the presence of developing core, the amount bound decreased to about 30 Cd2+/HoSF. This result indicated that Cd2+ and developing core were competing for the same sites on the HoSF interior, suggesting that 24 of the Cd2+ were bound to the inside surface. No other M2+ studied bound to the interior of HoSF by this criterion. Several of the M2+ appeared to bind strongly to the phosphate-free mineral core surface in reconstituted HoSF.
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PMID:Metal ion binding to apo, holo, and reconstituted horse spleen ferritin. 778 91

Noncoding sequences regulate mRNA and DNA function. IREs are a highly conserved family of noncoding mRNA sequences which coordinate ferritin mRNA translation and transferrin receptor mRNA stability by interactions with specific negative regulator protein, the IRP. RNA interactions with the IRP are modulated by cellular iron. The protein IRP binds to the entire IRE causing conformational changes in flanking region [Harrell et al. (1991) PNAS 88:4166-4170). The IRE+FL is the first RNA element encoding both positive and negative translational control and serves as a model mRNA regulatory elements. Folding of the IREs indicated previously by reactivity with chemical and enzymatic probes [E.C Theil (1994) Biochem. J., 304:1-11) is confirmed by using 1H, 15N and 31P (1) NMR) and CD to show that IRE secondary structure [hairpin-hexaloop (HL)/stem/internal loop or bulges] is folded, CD spectra display Mg2+ dependent structural changes in the temperature range used in the studies of IRE function. G/A substitution was shown by NMR and UV-vis to decrease stability of the folded IRE [H.Sierzputowska-Gracz et al. (1995) Nucl. Acids Res. 23:146-153]. A hairpin loop mutation affected only negative translational control.
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PMID:15N NMR and CD studies of the IRE (iron regulatory element in ferritin mRNA with single base substitution in the hairpin loop. 864 70


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