|
113
|
327
|
2x4aA |
Crystal structure of the c-terminal domain of inva |
|
121
|
333
|
2x49A |
Crystal structure of the c-terminal domain of inva |
|
67
|
158
|
2wtgA |
High resolution 3d structure of c.elegans globin-like protein glb-1 |
|
59
|
158
|
2wthA |
Low resolution 3d structure of c.elegans globin-like protein (glb-1): p3121 crystal form |
|
61
|
139
|
2wy4A |
Structure of bacterial globin from campylobacter jejuni at 1.35 a resolution |
|
63
|
153
|
2w6wA |
Crystal structure of recombinant sperm whale myoglobin under 1atm of xenon |
|
47
|
147
|
2wcrA |
Crystal structure of tip-alpha n34 (hp0596) from helicobacter pylori at ph8 |
|
61
|
141
|
2w72C |
Deoxygenated structure of a distal site hemoglobin mutant plus xe |
|
60
|
146
|
2w72B |
Deoxygenated structure of a distal site hemoglobin mutant plus xe |
|
52
|
154
|
2wcqA |
Crystal structure of tip-alpha n34 (hp0596) from helicobacter pylori at ph4 |
|
64
|
153
|
2w6yA |
Crystal structure of sperm whale myoglobin mutant yqr in complex with xenon |
|
63
|
154
|
2w6xA |
Crystal structure of sperm whale myoglobin mutant yqrf in complex with xenon |
|
62
|
141
|
2w6vA |
Structure of human deoxy hemoglobin a in complex with xenon |
|
60
|
148
|
2vywA |
Hemoglobin (hb2) from trematode fasciola hepatica |
|
60
|
141
|
2w72A |
Deoxygenated structure of a distal site hemoglobin mutant plus xe |
|
61
|
147
|
2vryA |
Mouse neuroglobin with heme iron in the reduced ferrous state |
|
57
|
146
|
2w6vB |
Structure of human deoxy hemoglobin a in complex with xenon |
|
71
|
152
|
2w31A |
Globin domain of geobacter sulfurreducens globin-coupled sensor |
|
67
|
162
|
2vjrA |
The structure of phycocyanin from gloeobacter violaceus |
|
44
|
110
|
2vyyA |
Mutant ala55trp of cerebratuls lacteus mini-hemoglobin |
|
44
|
110
|
2vyzA |
Mutant ala55phe of cerebratulus lacteus mini-hemoglobin |
|
66
|
162
|
2vmlA |
The monoclinic structure of phycocyanin from gloeobacter violaceus |
|
63
|
153
|
2vm0A |
Crystal structure of radiation-induced myoglobin compound ii generated after annealing of peroxymyoglobin |
|
59
|
160
|
2v8aA |
The structure of thermosynechococcus elongatus allophycocyanin at 3.5 angstroems. |
|
63
|
153
|
2vlyA |
Crystal structure of myoglobin compound iii (radiation-induced) |
|
74
|
190
|
2veeA |
Structure of protoglobin from methanosarcina acetivorans c2a |
|
61
|
153
|
2vlxA |
Crystal structure of peroxymyoglobin generated by cryoradiolytic reduction of myoglobin compound iii |
|
65
|
160
|
2vjtA |
The structure of allophycocyanin from gloeobacter violaceus |
|
70
|
172
|
2vmlB |
The monoclinic structure of phycocyanin from gloeobacter violaceus |
|
69
|
164
|
2vjhA |
The structure of phycoerythrin from gloeobacter violaceus |
|
73
|
190
|
2vebA |
High resolution structure of protoglobin from methanosarcina acetivorans c2a |
|
62
|
153
|
2vlzA |
Crystal structure of peroxymyoglobin generated by cryoradiolytic reduction of myoglobin compound iii |
|
72
|
172
|
2vjrB |
The structure of phycocyanin from gloeobacter violaceus |
|
64
|
153
|
2v1gA |
Crystal structure of radiation-induced myoglobin compound ii - intermediate h at ph 5.2 |
|
62
|
153
|
2v1fA |
Crystal structure of radiation-induced myoglobin compound ii - intermediate h at ph 8.7 |
|
69
|
177
|
2vjhB |
The structure of phycoerythrin from gloeobacter violaceus |
|
56
|
161
|
2v8aB |
The structure of thermosynechococcus elongatus allophycocyanin at 3.5 angstroems. |
|
58
|
145
|
2vhbA |
Azide adduct of the bacterial hemoglobin from vitreoscilla stercoraria |
|
65
|
161
|
2vjtB |
The structure of allophycocyanin from gloeobacter violaceus |
|
68
|
162
|
2uulC |
Crystal structure of c-phycocyanin from phormidium, lyngbya spp. (marine) and spirulina sp. (fresh water) shows two different ways of energy transfer between two hexamers. |
|
65
|
162
|
2uunA |
Crystal structure of c-phycocyanin from phormidium, lyngbya spp. (marine) and spirulina sp. (fresh water) shows two different ways of energy transfer between two hexamers. |
|
62
|
154
|
2spnA |
A novel site-directed mutant of myoglobin with an unusually high o2 affinity and low autooxidation rate |
|
49
|
139
|
2ri4A |
Crystal structure determination of goat methemoglobin at 2.7 angstrom |
|
64
|
153
|
2v1iA |
Crystal structure of radiation-induced metmyoglobin - aqua ferrous myoglobin at ph 6.8 |
|
68
|
172
|
2uunD |
Crystal structure of c-phycocyanin from phormidium, lyngbya spp. (marine) and spirulina sp. (fresh water) shows two different ways of energy transfer between two hexamers. |
|
63
|
162
|
2uumA |
Crystal structure of c-phycocyanin from phormidium, lyngbya spp. (marine) and spirulina sp. (fresh water) shows two different ways of energy transfer between two hexamers. |
|
66
|
154
|
2spoA |
A novel site-directed mutant of myoglobin with an unusually high o2 affinity and low autooxidation rate |
|
62
|
153
|
2v1kA |
Crystal structure of ferrous deoxymyoglobin at ph 6.8 |
|
64
|
154
|
2splA |
A novel site-directed mutant of myoglobin with an unusually high o2 affinity and low autooxidation rate |
|
64
|
153
|
2v1jA |
Crystal structure of radiation-induced metmyoglobin - aqua ferrous myoglobin at ph 8.7 |
