|
118
|
306
|
1h5cA |
X-ray induced reduction of horseradish peroxidase c1a compound iii (100-200% dose) |
|
108
|
304
|
1fhfA |
The structure of soybean peroxidase |
|
102
|
294
|
1jdrA |
Crystal structure of a proximal domain potassium binding variant of cytochrome c peroxidase |
|
109
|
293
|
1ebeA |
Laue diffraction study on the structure of cytochrome c peroxidase compound i |
|
109
|
294
|
1jciA |
Stabilization of the engineered cation-binding loop in cytochrome c peroxidase (ccp) |
|
109
|
291
|
1dspA |
Cytochrome c peroxidase h175g mutant, imidazole complex at ph 7, room temperature. |
|
109
|
292
|
1dseA |
Cytochrome c peroxidase h175g mutant, imidazole complex, with phosphate bound, ph 6, 100k |
|
106
|
291
|
1dsgA |
Cytochrome c peroxidase h175g mutant, imidazole complex at ph 5, room temperature. |
|
111
|
292
|
1ds4A |
Cytochrome c peroxidase h175g mutant, imidazole complex, ph 6, 100k |
|
108
|
291
|
1dsoA |
Cytochrome c peroxidase h175g mutant, imidazole complex at ph 6, room temperature. |
|
108
|
291
|
1dccA |
2.2 angstrom structure of oxyperoxidase: a model for the enzyme:peroxide complex |
|
111
|
291
|
1dj5A |
Crystal structure of r48a mutant of cytochrome c peroxidase with n-hydroxyguanidine bound |
|
110
|
291
|
1dj1A |
Crystal structure of r48a mutant of cytochrome c peroxidase |
|
105
|
291
|
1cpeA |
A cation binding motif stabilizes the compound i radical of cytochrome c peroxidase |
|
107
|
291
|
1cmuA |
The role of aspartate-235 in the binding of cations to an artificial cavity at the radical site of cytochrome c peroxidase |
|
118
|
336
|
1ck6A |
Binding mode of salicylhydroxamic acid to arthromyces ramosus peroxidase |
|
107
|
291
|
1cpdA |
A cation binding motif stabilizes the compound i radical of cytochrome c peroxidase |
|
107
|
291
|
1cpfA |
A cation binding motif stabilizes the compound i radical of cytochrome c peroxidase |
|
107
|
291
|
1cmtA |
The role of aspartate-235 in the binding of cations to an artificial cavity at the radical site of cytochrome c peroxidase |
|
106
|
296
|
1cyfA |
Identifying the physiological electron transfer site of cytochrome c peroxidase by structure-based engineering |
|
100
|
291
|
1cmpA |
Small molecule binding to an artificially created cavity at the active site of cytochrome c peroxidase |
|
103
|
291
|
1cpgA |
A cation binding motif stabilizes the compound i radical of cytochrome c peroxidase |
|
101
|
291
|
1cmqA |
Small molecule binding to an artificially created cavity at the active site of cytochrome c peroxidase |
|
98
|
291
|
1cccA |
The asp-his-fe triad of cytochrome c peroxidase controls the reduction potential, electronic structure, and coupling of the tryptophan free-radical to the heme |
|
101
|
291
|
1ccgA |
Construction of a bis-aquo heme enzyme and replacement with exogenous ligand |
|
104
|
275
|
1iynA |
Crystal structure of chloroplastic ascorbate peroxidase from tobacco plants and structural insights for its instability |
|
97
|
291
|
1cckA |
Altering substrate specificity of cytochrome c peroxidase towards a small molecular substrate peroxidase by substituting tyrosine for phe 202 |
|
99
|
291
|
1ccjA |
Conformer selection by ligand binding observed with protein crystallography |
|
104
|
291
|
1ccbA |
The asp-his-fe triad of cytochrome c peroxidase controls the reduction potential, electronic structure, and coupling of the tryptophan free-radical to the heme |
|
103
|
291
|
1cclA |
Probing the strength and character of an asp-his-x hydrogen bond by introducing buried charges |
|
116
|
336
|
1c8iA |
Binding mode of hydroxylamine to arthromyces ramosus peroxidase |
|
102
|
291
|
1ccaA |
The asp-his-fe triad of cytochrome c peroxidase controls the reduction potential, electronic structure, and coupling of the tryptophan free-radical to the heme |
|
110
|
291
|
1bvaA |
Manganese binding mutant in cytochrome c peroxidase |
|
112
|
293
|
1ccpA |
X-ray structures of recombinant yeast cytochrome c peroxidase and three heme-cleft mutants prepared by site-directed mutagenesis |
|
98
|
291
|
1cciA |
How flexible are proteins? trapping of a flexible loop |
|
103
|
291
|
1cceA |
Construction of a bis-aquo heme enzyme and replacement with exogenous ligand |
|
252
|
714
|
1itkA |
Crystal structure of catalase-peroxidase from haloarcula marismortui |
|
118
|
336
|
1arwA |
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 |
|
107
|
291
|
1bj9A |
Effect of unnatural heme substitution on kinetics of electron transfer in cytochrome c peroxidase |
|
113
|
349
|
1b82A |
Pristine recomb. lignin peroxidase h8 |
|
110
|
348
|
1b85A |
Lignin peroxidase |
|
119
|
336
|
1arvA |
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 |
|
117
|
309
|
1bgpA |
Crystal structure of barley grain peroxidase 1 |
|
109
|
291
|
1bejA |
Interaction between proximal and distals regions of cytochrome c peroxidase |
|
102
|
306
|
1atjA |
Recombinant horseradish peroxidase c1a |
|
114
|
336
|
1aruA |
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 |
|
107
|
291
|
1besA |
Interaction between proximal and distals regions of cytochrome c peroxidase |
|
111
|
349
|
1b80A |
Rec. lignin peroxidase h8 oxidatively processed |
|
109
|
291
|
1bepA |
Effect of unnatural heme substitution on kinetics of electron transfer in cytochrome c peroxidase |
|
107
|
291
|
1bemA |
Interaction between proximal and distals regions of cytochrome c peroxidase |
