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PDBsum entry 2ppa
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Oxidoreductase
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PDB id
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2ppa
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References listed in PDB file
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Key reference
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Title
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Conserved active site residues limit inhibition of a copper-Containing nitrite reductase by small molecules.
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Authors
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E.I.Tocheva,
L.D.Eltis,
M.E.Murphy.
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Ref.
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Biochemistry, 2008,
47,
4452-4460.
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PubMed id
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Abstract
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The interaction of copper-containing dissimilatory nitrite reductase from
Alcaligenes faecalis S-6 ( AfNiR) with each of five small molecules was studied
using crystallography and steady-state kinetics. Structural studies revealed
that each small molecule interacted with the oxidized catalytic type 2 copper of
AfNiR. Three small molecules (formate, acetate and nitrate) mimic the substrate
by having at least two oxygen atoms for bidentate coordination to the type 2
copper atom. These three anions bound to the copper ion in the same asymmetric,
bidentate manner as nitrite. Consistent with their weak inhibition of the enzyme
( K i >50 mM), the Cu-O distances in these AfNiR-inhibitor complexes were
approximately 0.15 A longer than that observed in the AfNiR-nitrite complex. The
binding mode of each inhibitor is determined in part by steric interactions with
the side chain of active site residue Ile257. Moreover, the side chain of Asp98,
a conserved residue that hydrogen bonds to type 2 copper-bound nitrite and
nitric oxide, was either disordered or pointed away from the inhibitors. Acetate
and formate inhibited AfNiR in a mixed fashion, consistent with the occurrence
of second acetate binding site in the AfNiR-acetate complex that occludes access
to the type 2 copper. A fourth small molecule, nitrous oxide, bound to the
oxidized metal in a side-on fashion reminiscent of nitric oxide to the reduced
copper. Nevertheless, nitrous oxide bound at a farther distance from the metal.
The fifth small molecule, azide, inhibited the reduction of nitrite by AfNiR
most strongly ( K ic = 2.0 +/- 0.1 mM). This ligand bound to the type 2 copper
center end-on with a Cu-N c distance of approximately 2 A, and was the only
inhibitor to form a hydrogen bond with Asp98. Overall, the data substantiate the
roles of Asp98 and Ile257 in discriminating substrate from other small anions.
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