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PDBsum entry 1i0h
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Oxidoreductase
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PDB id
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1i0h
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Removing a hydrogen bond in the dimer interface of escherichia coli manganese superoxide dismutase alters structure and reactivity.
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Authors
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R.A.Edwards,
M.M.Whittaker,
J.W.Whittaker,
E.N.Baker,
G.B.Jameson.
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Ref.
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Biochemistry, 2001,
40,
4622-4632.
[DOI no: ]
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PubMed id
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Abstract
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Among manganese superoxide dismutases, residues His30 and Tyr174 are highly
conserved, forming part of the substrate access funnel in the active site. These
two residues are structurally linked by a strong hydrogen bond between His30 NE2
from one subunit and Tyr174 OH from the other subunit of the dimer, forming an
important element that bridges the dimer interface. Mutation of either His30 or
Tyr174 in Escherichia coli MnSOD reduces the superoxide dismutase activity to
30--40% of that of the wt enzyme, which is surprising, since Y174 is quite
remote from the active site metal center. The 2.2 A resolution X-ray structure
of H30A-MnSOD shows that removing the Tyr174-->His30 hydrogen bond from the
acceptor side results in a significant displacement of the main-chain segment
containing the Y174 residue, with local rearrangement of the protein. The 1.35 A
resolution structure of Y174F-MnSOD shows that disruption of the same hydrogen
bond from the donor side has much greater consequences, with reorientation of
F174 having a domino effect on the neighboring residues, resulting in a major
rearrangement of the dimer interface and flipping of the His30 ring.
Spectroscopic studies on H30A, H30N, and Y174F mutants show that (like the
previously characterized Y34F mutant of E. coli MnSOD) all lack the high pH
transition of the wt enzyme. This observation supports assignment of the pH
sensitivity of MnSOD to coordination of hydroxide ion at high pH rather than to
ionization of the phenolic group of Y34. Thus, mutations near the active site,
as in the Y34F mutant, as well as at remote positions, as in Y174F, similarly
affect the metal reactivity and alter the effective pK(a) for hydroxide ion
binding. These results imply that hydrogen bonding of the H30 imidazole N--H
group plays a key role in substrate binding and catalysis.
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Secondary reference #1
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Title
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Outer sphere mutations perturb metal reactivity in manganese superoxide dismutase.
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Authors
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R.A.Edwards,
M.M.Whittaker,
J.W.Whittaker,
E.N.Baker,
G.B.Jameson.
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Ref.
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Biochemistry, 2001,
40,
15-27.
[DOI no: ]
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PubMed id
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