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PDBsum entry 1arv
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Peroxidase (donor:h2o2 oxidoreductase)
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PDB id
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1arv
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References listed in PDB file
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Key reference
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Title
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Crystal structures of cyanide- And triiodide-Bound forms of arthromyces ramosus peroxidase at different ph values. Perturbations of active site residues and their implication in enzyme catalysis.
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Authors
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K.Fukuyama,
N.Kunishima,
F.Amada,
T.Kubota,
H.Matsubara.
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Ref.
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J Biol Chem, 1995,
270,
21884-21892.
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PubMed id
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Abstract
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The structures of the cyanide and triiodide complexes of Arthromyces ramosus
peroxidase (ARP) at different pH values were investigated by x-ray
crystallography in order to examine the behavior of the invariant residues of
arginine (Arg-52) and distal histidine (His-56) during the enzyme reaction as
well as to provide the structural basis of the active site of peroxidase. The
models of the cyanide complexes at pH 7.5, 5.0, and 4.0, respectively, were
refined to the R-factors of 17.8, 17.8, and 18.5% using 7.0-1.6-A resolution
data, and those of the triiodide complexes at pH 6.5 and 5.0 refined to 16.9 and
16.8% using 7.0-1.9-A resolution data. The structures of the cyanide complexes
at pH 7.5, 5.0, and 4.0 are identical within experimental error. Cyanide ion
bound to the heme in the bent conformation rather than in the tilt conformation.
Upon cyanide ion binding, the N epsilon atom of His-56 moved toward the ion by
rotation of the imidazole ring around the C beta-C gamma bond, but there was
little conformational change in the remaining residues. The distance between the
N epsilon atom of His-56 and the nitrogen atom of the cyanide suggests the
presence of a hydrogen bond between them in the pH range investigated. In the
triiodide complexes, one of the two triiodides bound to ARP was located at the
distal side of the heme. When triiodide bound to ARP, unlike the rearrangement
of the distal arginine of cytochrome c peroxidase that occurs on formation of
the fluoride complex or compound I, the side chain of Arg-52 moved little. The
conformation of the side chain of His-56, however, changed markedly.
Conformational flexibility of His-56 appears to be a requisite for proton
translocation from one oxygen atom to the other of HOO- by acid-base catalysis
to produce compound I. The iron atom in each cyanide complex (low-spin ferric)
is located in the heme plane, whereas in each triiodide complex (high-spin
ferric) the iron atom is displaced from the plane about 0.2 A toward the
proximal side.
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Secondary reference #1
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Title
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Crystal structure of the fungal peroxidase from arthromyces ramosus at 1.9 a resolution. Structural comparisons with the lignin and cytochrome c peroxidases.
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Authors
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N.Kunishima,
K.Fukuyama,
H.Matsubara,
H.Hatanaka,
Y.Shibano,
T.Amachi.
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Ref.
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J Mol Biol, 1994,
235,
331-344.
[DOI no: ]
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PubMed id
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Figure 8.
Figur 8. Superposition of ARP and LiP at the heme binding region. Yellow, ARP; blue, LiP.
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Figure 10.
Figure 10. Stereo views of the environments of 2 calcium sites. (a) Site 1; and (b) site 2. The interat~mic distances to
site 1 are: D570, 26 A; D570 a~, 25 G750, 26 A; 8790 y, 24 A; D77062, 2-6 ; Watt24, 2-5 A; and War425, 25 A.
Those to site 2 are: 81850, 2-5 A; S1850 y, 27 A; D202061, 25 A; D2020 a2, 2-6 A; T2040, 25 A; T20,10 yl, 27 A; V2070,
25 A; and D20906z, 26 A.
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The above figures are
reproduced from the cited reference
with permission from Elsevier
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Secondary reference #2
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Title
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Crystallization and preliminary X-Ray diffraction studies of peroxidase from a fungus arthromyces ramosus.
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Authors
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N.Kunishima,
K.Fukuyama,
S.Wakabayashi,
M.Sumida,
M.Takaya,
Y.Shibano,
T.Amachi,
H.Matsubara.
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Ref.
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Proteins, 1993,
15,
216-220.
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PubMed id
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