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Literature DB >> 27650996

Ferroxidase Activity in Eukaryotic Ferritin is Controlled by Accessory-Iron-Binding Sites in the Catalytic Cavity.

Caterina Bernacchioni¹, Cecilia Pozzi², Flavio Di Pisa², Stefano Mangani³, Paola Turano⁴.

Abstract

Ferritins are iron-storage nanocage proteins that catalyze the oxidation of Fe2+ to Fe3+ at ferroxidase sites. By a combination of structural and spectroscopic techniques, Asp140, together with previously identified Glu57 and Glu136, is demonstrated to be an essential residue to promote the iron oxidation at the ferroxidase site. However, the presence of these three carboxylate moieties in close proximity to the catalytic centers is not essential to achieve binding of the Fe2+ substrate to the diferric ferroxidase sites with the same coordination geometries as in the wild-type cages.

Entities: Chemical

Keywords: X-ray diffraction; ferritin; ferroxidase; iron; protein structures

Year: 2016 PMID： 27650996 DOI： 10.1002/chem.201602842

Source DB: PubMed Journal: Chemistry ISSN： 0947-6539 Impact factor: 5.236

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Cited

4 in total

1. Flavin-mediated reductive iron mobilization from frog M and Mycobacterial ferritins: impact of their size, charge and reactivities with NADH/O₂.

Authors: Prashanth Kumar Koochana; Abhinav Mohanty; Akankshika Parida; Narmada Behera; Pabitra Mohan Behera; Anshuman Dixit; Rabindra K Behera
Journal: J Biol Inorg Chem Date: 2021-02-17 Impact factor: 3.358

Ferroxidase Activity in Eukaryotic Ferritin is Controlled by Accessory-Iron-Binding Sites in the Catalytic Cavity.

1. Flavin-mediated reductive iron mobilization from frog M and Mycobacterial ferritins: impact of their size, charge and reactivities with NADH/O₂.

2. Electrostatic and Structural Bases of Fe2+ Translocation through Ferritin Channels.

3. Native Electron Capture Dissociation Maps to Iron-Binding Channels in Horse Spleen Ferritin.

4. Cancer cell death induced by ferritins and the peculiar role of their labile iron pool.

Ferroxidase Activity in Eukaryotic Ferritin is Controlled by Accessory-Iron-Binding Sites in the Catalytic Cavity.

1. Flavin-mediated reductive iron mobilization from frog M and Mycobacterial ferritins: impact of their size, charge and reactivities with NADH/O2.

2. Electrostatic and Structural Bases of Fe2+ Translocation through Ferritin Channels.

3. Native Electron Capture Dissociation Maps to Iron-Binding Channels in Horse Spleen Ferritin.

4. Cancer cell death induced by ferritins and the peculiar role of their labile iron pool.

1. Flavin-mediated reductive iron mobilization from frog M and Mycobacterial ferritins: impact of their size, charge and reactivities with NADH/O₂.