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The manganese-specific superoxide dismutase SOD2 from the yeast Saccharo­myces cerevisiae is a protein that resides in the mitochondrion and protects it against attack by superoxide radicals. However, a high iron concentration in the mitochondria results in iron misincorporation at the active site, with subsequent inactivation of SOD2. Here, the crystal structures of SOD2 bound with the native metal manganese and with the `wrong' metal iron are presented at 2.05 and 1.79 Å resolution, respectively. Structural comparison of the two structures shows no significant conformational alteration in the overall structure or in the active site upon binding the non-native metal iron. Moreover, residues Asp163 and Lys80 are proposed to potentially be responsible for the metal specificity of the Mn-specific SOD. Additionally, the surface-potential distribution of SOD2 revealed a conserved positively charged electrostatic zone in the proximity of the active site that probably functions in the same way as in Cu/Zn-SODs by facilitating the diffusion of the superoxide anion to the metal ion.

Supporting information

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S1744309111029186/hv5190sup1.hkl
Contains datablock r3bfrsf

hkl

Structure factor file (CIF format) https://doi.org/10.1107/S1744309111029186/hv5190sup2.hkl
Contains datablock r3rn4sf

PDB references: SOD2, 3bfr; iron-substituted SOD2, 3rn4


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