Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
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The Structure of the BfrB–Bfd Complex Reveals Protein–Protein Interactions Enabling Iron Release from BacterioferritinMechanism of Ferrous Iron Binding and Oxidation by Ferritin from a Pennate DiatomThe Role of Nonconserved Residues of Archaeoglobus fulgidus Ferritin on Its Unique Structure and Biophysical PropertiesIron binding to human heavy-chain ferritinFerroxidase Activity in Eukaryotic Ferritin is Controlled by Accessory-Iron-Binding Sites in the Catalytic CavityA Diatom Ferritin Optimized for Iron Oxidation but Not Iron Storage.Moving Fe2+ from ferritin ion channels to catalytic OH centers depends on conserved protein cage carboxylates.Coordinating subdomains of ferritin protein cages with catalysis and biomineralization viewed from the C4 cage axes.The catalytic center of ferritin regulates iron storage via Fe(II)-Fe(III) displacement.Fe(2+) substrate transport through ferritin protein cage ion channels influences enzyme activity and biomineralization.Concerted motions networking pores and distant ferroxidase centers enable bacterioferritin function and iron traffic.Ferritin ion channel disorder inhibits Fe(II)/O2 reactivity at distant sitesFerritin: the protein nanocage and iron biomineral in health and in disease.Mechanisms of iron mineralization in ferritins: one size does not fit all.Ferritin family proteins and their use in bionanotechnology.Spectroscopic studies of single and double variants of M ferritin: lack of conversion of a biferrous substrate site into a cofactor site for O2 activation.The Ferritin Superfamily.Time-lapse anomalous X-ray diffraction shows how Fe(2+) substrate ions move through ferritin protein nanocages to oxidoreductase sites.The workings of ferritin: a crossroad of opinions.Structural characterization of encapsulated ferritin provides insight into iron storage in bacterial nanocompartmentsChemistry at the protein-mineral interface in L-ferritin assists the assembly of a functional (μ3-oxo)Tris[(μ2-peroxo)] triiron(III) cluster.Metalloenzymes: Cage redesign explains assembly.The impact of short-term UV irradiation on grains of sensitive and tolerant cereal genotypes studied by EPR.Electrostatic and Structural Bases of Fe2+ Translocation through Ferritin Channels.A conserved tyrosine in ferritin is a molecular capacitor.Serum ferritin is an important inflammatory disease marker, as it is mainly a leakage product from damaged cellsModulating the permeability of ferritin channelsMedicinal gold compounds form tight adducts with the copper chaperone Atox-1: biological and pharmacological implications
P2860
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P2860
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
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2012 nî lūn-bûn
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2012 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2012年の論文
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2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
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name
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@ast
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@en
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@nl
type
label
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@ast
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@en
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@nl
prefLabel
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@ast
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@en
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@nl
P2860
P50
P3181
P356
P1476
Structural Insights into the Ferroxidase Site of Ferritins from Higher Eukaryotes
@en
P2093
Daniela Lalli
Elizabeth C Theil
P2860
P304
P3181
P356
10.1021/JA210084N
P407
P577
2012-04-11T00:00:00Z