| Q42584989 | A new role for heme, facilitating release of iron from the bacterioferritin iron biomineral |
| Q36107138 | A novel mechanism of iron-core formation by Pyrococcus furiosus archaeoferritin, a member of an uncharacterized branch of the ferritin-like superfamily. |
| Q39532378 | Alteration of the oxygen-dependent reactivity of de novo Due Ferri proteins |
| Q41895434 | Catalysis of iron core formation in Pyrococcus furiosus ferritin. |
| Q36646842 | Cloning, expression, purification, crystallization and preliminary X-ray crystallographic analysis of bacterioferritin A from Mycobacterium tuberculosis |
| Q74702566 | Computational de novo design, and characterization of an A(2)B(2) diiron protein |
| Q27658376 | Crystal Structure of Bfr A from Mycobacterium tuberculosis: Incorporation of Selenomethionine Results in Cleavage and Demetallation of Haem |
| Q37614250 | Dps-like proteins: structural and functional insights into a versatile protein family |
| Q53763242 | Effect of phosphate on bacterioferritin-catalysed iron(II) oxidation. |
| Q54339587 | Fe-haem bound to Escherichia coli bacterioferritin accelerates iron core formation by an electron transfer mechanism. |
| Q28216801 | Ferritin, iron homeostasis, and oxidative damage |
| Q80079856 | Ferritin-catalyzed consumption of hydrogen peroxide by amine buffers causes the variable Fe2+ to O2 stoichiometry of iron deposition in horse spleen ferritin |
| Q35120053 | Ferritins, iron uptake and storage from the bacterioferritin viewpoint |
| Q28073522 | Ferritins: furnishing proteins with iron |
| Q41916748 | Fortuitous structure determination of 'as-isolated' Escherichia coli bacterioferritin in a novel crystal form |
| Q37633306 | Functionality of the three-site ferroxidase center of Escherichia coli bacterial ferritin (EcFtnA). |
| Q34332999 | Inhibition and stimulation of formation of the ferroxidase center and the iron core in Pyrococcus furiosus ferritin. |
| Q92954941 | Insights into ecological role of a new deltaproteobacterial order Candidatus Acidulodesulfobacterales by metagenomics and metatranscriptomics |
| Q48244440 | Iron Oxidation and Core Formation in Recombinant Heteropolymeric Human Ferritins. |
| Q34128990 | Iron and hydrogen peroxide detoxification properties of DNA-binding protein from starved cells. A ferritin-like DNA-binding protein of Escherichia coli. |
| Q54541779 | Iron detoxification properties of Escherichia coli bacterioferritin. Attenuation of oxyradical chemistry. |
| Q42108734 | Iron oxidation and hydrolysis reactions of a novel ferritin from Listeria innocua |
| Q27677180 | Mechanism of Ferrous Iron Binding and Oxidation by Ferritin from a Pennate Diatom |
| Q38205711 | Mechanisms of iron mineralization in ferritins: one size does not fit all. |
| Q88596221 | Metabolic Reprogramming of Vibrio cholerae Impaired in Respiratory NADH Oxidation Is Accompanied by Increased Copper Sensitivity |
| Q39201404 | Metal homeostasis and resistance in bacteria |
| Q37285019 | Protein association and dissociation regulated by ferric ion: a novel pathway for oxidative deposition of iron in pea seed ferritin |
| Q28363509 | Proton and metal ion-dependent assembly of a model diiron protein |
| Q34042943 | Spectroscopic and metal-binding properties of DF3: an artificial protein able to accommodate different metal ions. |
| Q51903863 | Spin concentration measurements of high-spin (g' = 4.3) rhombic iron(III) ions in biological samples: theory and application. |
| Q36572171 | Stability of a 24-meric homopolymer: comparative studies of assembly-defective mutants of Rhodobacter capsulatus bacterioferritin and the native protein |
| Q27658932 | Structural Studies of Bacterioferritin B from Pseudomonas aeruginosa Suggest a Gating Mechanism for Iron Uptake via the Ferroxidase Center, |
| Q27655462 | Structural and Mechanistic Studies of a Stabilized Subunit Dimer Variant of Escherichia coli Bacterioferritin Identify Residues Required for Core Formation |
| Q34563522 | Structure of the DPS-like protein from Sulfolobus solfataricus reveals a bacterioferritin-like dimetal binding site within a DPS-like dodecameric assembly |
| Q27637016 | The 2.6 A resolution structure of Rhodobacter capsulatus bacterioferritin with metal-free dinuclear site and heme iron in a crystallographic 'special position' |
| Q35055616 | The B-type channel is a major route for iron entry into the ferroxidase center and central cavity of bacterioferritin. |
| Q92340170 | The Dps4 from Nostoc punctiforme ATCC 29133 is a member of His-type FOC containing Dps protein class that can be broadly found among cyanobacteria |
| Q39167574 | The Ferritin Superfamily |
| Q21559570 | The amyloid precursor protein (APP) does not have a ferroxidase site in its E2 domain |
| Q37761662 | The evolution of Photosystem II: insights into the past and future. |
| Q36985040 | The ferritin Fe2 site at the diiron catalytic center controls the reaction with O2 in the rapid mineralization pathway. |
| Q27640662 | The nature of the di-iron site in the bacterioferritin from Desulfovibrio desulfuricans |
| Q39539276 | Three Aromatic Residues are Required for Electron Transfer during Iron Mineralization in Bacterioferritin. |
| Q40423605 | Three Aromatic Residues are Required for Electron Transfer during Iron Mineralization in Bacterioferritin. |
| Q47797135 | Tyr25, Tyr58 and Trp133 of Escherichia coli bacterioferritin transfer electrons between iron in the central cavity and the ferroxidase centre |
| Q43001666 | mu-1,2-Peroxobridged di-iron(III) dimer formation in human H-chain ferritin. |