|
124
|
367
|
1sjbA |
X-ray structure of o-succinylbenzoate synthase complexed with o-succinylbenzoic acid |
|
125
|
367
|
1sjcA |
X-ray structure of o-succinylbenzoate synthase complexed with n-succinyl methionine |
|
101
|
323
|
1rm6B |
Structure of 4-hydroxybenzoyl-coa reductase from thauera aromatica |
|
106
|
322
|
1r6wA |
Crystal structure of the k133r mutant of o-succinylbenzoate synthase (osbs) from escherichia coli. complex with shchc |
|
124
|
370
|
1r0mA |
Structure of deinococcus radiodurans n-acylamino acid racemase at 1.3 : insights into a flexible binding pocket and evolution of enzymatic activity |
|
139
|
421
|
1q1rA |
Crystal structure of putidaredoxin reductase from pseudomonas putida |
|
141
|
422
|
1q1wA |
Crystal structure of putidaredoxin reductase from pseudomonas putida |
|
154
|
433
|
1pdzA |
X-ray structure and catalytic mechanism of lobster enolase |
|
151
|
433
|
1pdyA |
X-ray structure and catalytic mechanism of lobster enolase |
|
132
|
495
|
1onfA |
Crystal structure of plasmodium falciparum glutathione reductase |
|
163
|
436
|
1p48A |
Reverse protonation is the key to general acid-base catalysis in enolase |
|
167
|
436
|
1oneA |
Yeast enolase complexed with an equilibrium mixture of 2'-phosphoglyceate and phosphoenolpyruvate |
|
170
|
436
|
1p43A |
Reverse protonation is the key to general acid-base catalysis in enolase |
|
146
|
431
|
1oepA |
Structure of trypanosoma brucei enolase reveals the inhibitory divalent metal site |
|
151
|
482
|
1ojtA |
Structure of dihydrolipoamide dehydrogenase |
|
147
|
436
|
1nelA |
Fluoride inhibition of yeast enolase: crystal structure of the enolase-mg2+-f--pi complex at 2.6-angstroms resolution |
|
137
|
447
|
1nhsA |
An l40c mutation converts the cysteine-sulfenic acid redox centre in enterococcal nadh peroxidase to a disulfide |
|
146
|
481
|
1ndaA |
The structure of trypanosoma cruzi trypanothione reductase in the oxidized and nadph reduced state |
|
137
|
447
|
1nhpA |
Crystallographic analyses of nadh peroxidase cys42ala and cys42ser mutants: active site structure, mechanistic implications, and an unusual environment of arg303 |
|
128
|
369
|
1nu5A |
Crystal structure of pseudomonas sp. p51 chloromuconate lactonizing enzyme |
|
141
|
447
|
1nhrA |
An l40c mutation converts the cysteine-sulfenic acid redox centre in enterococcal nadh peroxidase to a disulfide |
|
140
|
447
|
1npxA |
Structure of nadh peroxidase from streptococcus faecalis 10c1 refined at 2.16 angstroms resolution |
|
136
|
447
|
1nhqA |
Crystallographic analyses of nadh peroxidase cys42ala and cys42ser mutants: active site structure, mechanistic implications, and an unusual environment of arg303 |
|
88
|
287
|
1n63C |
Crystal structure of the cu,mo-co dehydrogenase (codh); carbon monoxide reduced state |
|
127
|
357
|
1mnsA |
On the role of lysine 166 in the mechanism of mandelate racemase from pseudomonas putida: mechanistic and crystallographic evidence for stereospecific alkylation by (r)-alpha-phenylglycidate |
|
140
|
369
|
1mucA |
Structure of muconate lactonizing enzyme at 1.85 angstroms resolution |
|
131
|
357
|
1mraA |
Mandelate racemase mutant d270n co-crystallized with (s)-atrolactate |
|
88
|
287
|
1n61C |
Crystal structure of the cu,mo-co dehydrogenase (codh); dithionite reduced state |
|
169
|
522
|
1mo9A |
Nadph dependent 2-ketopropyl coenzyme m oxidoreductase/carboxylase complexed with 2-ketopropyl coenzyme m |
|
91
|
286
|
1n62C |
Crystal structure of the mo,cu-co dehydrogenase (codh), n-butylisocyanide-bound state |
|
162
|
522
|
1mokA |
Nadph dependent 2-ketopropyl coenzyme m oxidoreductase/carboxylase |
|
89
|
287
|
1n5wC |
Crystal structure of the cu,mo-co dehydrogenase (codh); oxidized form |
|
93
|
286
|
1n60C |
Crystal structure of the cu,mo-co dehydrogenase (codh); cyanide-inactivated form |
|
166
|
436
|
1l8pA |
Mg-phosphonoacetohydroxamate complex of s39a yeast enolase 1 |
|
123
|
357
|
1mdrA |
The role of lysine 166 in the mechanism of mandelate racemase from pseudomonas putida: mechanistic and crystallographic evidence for stereospecific alkylation by (r)-alpha-phenylglycidate |
|
150
|
472
|
1lpfA |
Three-dimensional structure of lipoamide dehydrogenase from pseudomonas fluorescens at 2.8 angstroms resolution. analysis of redox and thermostability properties |
|
144
|
481
|
1m6iA |
Crystal structure of apoptosis inducing factor (aif) |
|
122
|
357
|
1mdlA |
Mandelate racemase mutant k166r co-crystallized with (r)-mandelate |
|
135
|
458
|
1lvlA |
The refined structure of pseudomonas putida lipoamide dehydrogenase complexed with nad+ at 2.45 angstroms resolution |
|
154
|
411
|
1kkoA |
Crystal structure of citrobacter amalonaticus methylaspartate ammonia lyase |
|
158
|
413
|
1kczA |
Crystal structure of beta-methylaspartase from clostridium tetanomorphum. mg-complex. |
|
149
|
411
|
1kkrA |
Crystal structure of citrobacter amalonaticus methylaspartate ammonia lyase containing (2s,3s)-3-methylaspartic acid |
|
50
|
184
|
1kn0A |
Crystal structure of the human rad52 protein |
|
145
|
413
|
1kd0A |
Crystal structure of beta-methylaspartase from clostridium tetanomorphum. apo-structure. |
|
126
|
359
|
1jpmA |
L-ala-d/l-glu epimerase |
|
110
|
324
|
1jpdX |
L-ala-d/l-glu epimerase |
|
46
|
186
|
1h2iA |
Human rad52 protein, n-terminal domain |
|
136
|
490
|
1h6vA |
Mammalian thioredoxin reductase |
|
149
|
490
|
1gv4A |
Murine apoptosis-inducing factor (aif) |
|
141
|
461
|
1graA |
Substrate binding and catalysis by glutathione reductase as derived from refined enzyme: substrate crystal structures at 2 angstroms resolution |
