|
144
|
388
|
4qehA |
Room temperature x-ray structure of d-xylose isomerase in complex with two mg2+ ions and l-ribose |
|
145
|
388
|
4qdwA |
Joint x-ray and neutron structure of streptomyces rubiginosus d-xylose isomerase in complex with two ni2+ ions and linear l-arabinose |
|
147
|
388
|
4qe4A |
Room temperature x-ray structure of d-xylose isomerase in complex with two ni2+ ions and l-ribulose |
|
145
|
388
|
4qe1A |
Room temperature x-ray structure of d-xylose isomerase in complex with two cd2+ ions and l-ribulose |
|
140
|
388
|
4qdpA |
Joint x-ray and neutron structure of streptomyces rubiginosus d-xylose isomerase in complex with two cd2+ ions and cyclic beta-l-arabinose |
|
145
|
385
|
4lncA |
Neutron structure of the cyclic glucose bound xylose isomerase e186q mutant |
|
143
|
385
|
4j4kA |
Crystal structure of glucose isomerase |
|
139
|
386
|
4hhmA |
Crystal structure of a mutant, g219a, of glucose isomerase from streptomyces sp. sk |
|
139
|
386
|
4hhlA |
High resolution crystal structure of glucose isomerase from streptomyces sp. sk |
|
142
|
388
|
3qysA |
Room temperature x-ray structure of d-xylose isomerase in complex with 0.6ni2+ cation bound in m2 metal binding site at ph=5.8 |
|
139
|
388
|
3qzaA |
Joint neutron and x-ray structure of apo-d-xylose isomerase at ph=5.9 |
|
144
|
386
|
3n4aA |
Crystal structure of d-xylose isomerase in complex with s-1,2-propandiol |
|
147
|
388
|
3kbsA |
Room temperature x-ray structure of d-xylose isomerase in complex with 2cd(2+) co-factors |
|
145
|
388
|
3kbwA |
Room temperature x-ray mixed-metal structure of d-xylose isomerase in complex with ni(2+) and mg(2+) co-factors |
|
118
|
330
|
3ktcA |
Crystal structure of putative sugar isomerase (yp_050048.1) from erwinia carotovora atroseptica scri1043 at 1.54 a resolution |
|
138
|
388
|
3kcjA |
Room temperature neutron structure of apo-d-xylose isomerase (refined jointly with x-ray structure 3kbj) |
|
144
|
388
|
3kbnA |
Room temperature structure of d-xylose isomerase in complex with 2ni(2+) co-factors and d12-d-glucose in the linear form |
|
142
|
388
|
3kbjA |
Room temperature x-ray structure of apo-d-xylose isomerase |
|
144
|
388
|
3kcoA |
Room temperature neutron structure of d-xylose isomerase in complex with two ni2+ cations and d12-d-glucose in the linear form (refined jointly with x-ray structure 3kbn) |
|
148
|
388
|
3kbvA |
Room temperature structure of d-xylose isomerase in complex with 2ni(2+) co-factors |
|
143
|
388
|
3kclA |
Room temperature neutron structure of d-xylose isomerase in complex with two cd2+ cations and d12-d-alpha-glucose in the ring form (refined jointly with x-ray structure 3kbm) |
|
146
|
388
|
3kbmA |
Room temperature x-ray structure of d-xylose isomerase complexed with 2cd(2+) co-factors and d12-d-alpha-glucose in the cyclic form |
|
142
|
385
|
3gnxA |
Structure of dehydrated d-xylose isomerase from streptomyces rubiginosus |
|
127
|
387
|
3cwhA |
D-xylose isomerase in complex with linear product, per-deuterated xylulose |
|
143
|
392
|
2ximA |
Arginine residues as stabilizing elements in proteins |
|
138
|
392
|
2xinA |
Protein engineering of xylose (glucose) isomerase from actinoplanes missouriensis. 1. crystallography and site-directed mutagenesis of metal binding sites |
|
142
|
385
|
2xisA |
A metal-mediated hydride shift mechanism for xylose isomerase based on the 1.6 angstroms streptomyces rubiginosus structures with xylitol and d-xylose |
|
135
|
388
|
2gveA |
Time-of-flight neutron diffraction structure of d-xylose isomerase |
|
147
|
388
|
2glkA |
High-resolution study of d-xylose isomerase, 0.94a resolution. |
|
145
|
385
|
2gubA |
Crystal structure of metal free d-xylose isomerase. |
|
133
|
385
|
2gyiA |
Design, synthesis, and characterization of a potent xylose isomerase inhibitor, d-threonohydroxamic acid, and high-resolution x-ray crystallographic structure of the enzyme-inhibitor complex |
|
144
|
386
|
2g4jA |
Anomalous substructure of glucose isomerase |
|
138
|
386
|
1xycA |
X-ray crystallographic structures of d-xylose isomerase-substrate complexes position the substrate and provide evidence for metal movement during catalysis |
|
138
|
386
|
1xymA |
The role of the divalent metal ion in sugar binding, ring opening, and isomerization by d-xylose isomerase: replacement of a catalytic metal by an amino-acid |
|
140
|
386
|
1xybA |
X-ray crystallographic structures of d-xylose isomerase-substrate complexes position the substrate and provide evidence for metal movement during catalysis |
|
137
|
386
|
1xylA |
The role of the divalent metal ion in sugar binding, ring opening, and isomerization by d-xylose isomerase: replacement of a catalytic metal by an amino-acid |
|
139
|
386
|
1xyaA |
X-ray crystallographic structures of d-xylose isomerase-substrate complexes position the substrate and provide evidence for metal movement during catalysis |
|
137
|
393
|
1xlaA |
Mechanism for aldose-ketose interconversion by d-xylose isomerase involving ring opening followed by a 1,2-hydride shift |
|
140
|
386
|
1xisA |
A metal-mediated hydride shift mechanism for xylose isomerase based on the 1.6 angstroms streptomyces rubiginosus structures with xylitol and d-xylose |
|
144
|
393
|
1xlfA |
Mechanism for aldose-ketose interconversion by d-xylose isomerase involving ring opening followed by a 1,2-hydride shift |
|
143
|
393
|
1xlgA |
Mechanism for aldose-ketose interconversion by d-xylose isomerase involving ring opening followed by a 1,2-hydride shift |
|
142
|
385
|
1xigA |
Modes of binding substrates and their analogues to the enzyme d-xylose isomerase |
|
144
|
385
|
1xijA |
Modes of binding substrates and their analogues to the enzyme d-xylose isomerase |
|
141
|
393
|
1xlcA |
Mechanism for aldose-ketose interconversion by d-xylose isomerase involving ring opening followed by a 1,2-hydride shift |
|
140
|
393
|
1xleA |
Mechanism for aldose-ketose interconversion by d-xylose isomerase involving ring opening followed by a 1,2-hydride shift |
|
144
|
387
|
1xieA |
Modes of binding substrates and their analogues to the enzyme d-xylose isomerase |
|
142
|
393
|
1xljA |
Mechanism for aldose-ketose interconversion by d-xylose isomerase involving ring opening followed by a 1,2-hydride shift |
|
144
|
387
|
1xidA |
Modes of binding substrates and their analogues to the enzyme d-xylose isomerase |
|
140
|
392
|
1xinA |
Protein engineering of xylose (glucose) isomerase from actinoplanes missouriensis. 1. crystallography and site-directed mutagenesis of metal binding sites |
|
140
|
393
|
1xllA |
Mechanism for aldose-ketose interconversion by d-xylose isomerase involving ring opening followed by a 1,2-hydride shift |
