|
60
|
154
|
2eb8A |
Crystal structure of cu(ii)(sal-phe)/apo-myoglobin |
|
58
|
146
|
5sw7B |
Structure of the human hemoglobin mutant hb providence (a-gly-c:v1m; b,d:v1m,k82d; ferrous, carbonmonoxy bound) |
|
54
|
141
|
5c6eA |
Joint x-ray/neutron structure of equine cyanomet hemoglobin in r state |
|
42
|
117
|
5ab8A |
High resolution x-ray structure of the n-terminal truncated form (residues 1-11) of mycobacterium tuberculosis hbn |
|
69
|
172
|
4zizB |
Serial femtosecond crystallography of soluble proteins in lipidic cubic phase (c-phycocyanin from t. elongatus) |
|
65
|
162
|
4zizA |
Serial femtosecond crystallography of soluble proteins in lipidic cubic phase (c-phycocyanin from t. elongatus) |
|
59
|
144
|
5jggB |
X-ray sequence and high resolution crystal structure of persian sturgeon methemoglobin |
|
53
|
140
|
5jdoE |
T. congolense haptoglobin-haemoglobin receptor in complex with haemoglobin |
|
54
|
144
|
5jdoF |
T. congolense haptoglobin-haemoglobin receptor in complex with haemoglobin |
|
66
|
145
|
5hbiA |
Scapharca dimeric hemoglobin, mutant t72i, co-liganded form |
|
58
|
146
|
5hy8B |
Glycation restrains allosteric transition in hemoglobin: the molecular basis of oxidative stress under hyperglycemic conditions in diabetes |
|
62
|
153
|
5hlxA |
X-ray crystal structure of met f43h/h64a sperm whale myoglobin in complex with nitrite |
|
64
|
154
|
5ileA |
H64a sperm whale myoglobin with a fe-tolyl moiety |
|
61
|
152
|
5hluA |
X-ray crystal structure of met f43h/h64a sperm whale myoglobin in complex with nitric oxide |
|
58
|
141
|
5hu6A |
Structure of the t. brucei haptoglobin-haemoglobin receptor bound to human haptolgobin-haemoglobin |
|
63
|
153
|
5ilmA |
H64a sperm whale myoglobin with a fe-chlorophenyl moiety |
|
62
|
153
|
5azqA |
Crystal structure of cyano-cobalt(iii) tetradehydrocorrin in the heme pocket of horse heart myoglobin |
|
62
|
153
|
5azrA |
Crystal structure of aqua-cobalt(iii) tetradehydrocorrin in the heme pocket of horse heart myoglobin |
|
59
|
149
|
4zvaA |
Crystal structure of globin domain of the e. coli dosc - form i (ferric) |
|
68
|
164
|
5fvbA |
Crystal structure of phormidium c-phycoerythrin at ph 5.0 |
|
69
|
184
|
5fvbM |
Crystal structure of phormidium c-phycoerythrin at ph 5.0 |
|
57
|
150
|
4zvbA |
Crystal structure of globin domain of the e. coli dosc - form ii (ferrous) |
|
56
|
148
|
5f2aA |
Crystal structure of murine neuroglobin mutant f106w at 310 mpa pressure |
|
58
|
148
|
5eyjA |
Crystal structure of murine neuroglobin mutant v101f at 240 mpa pressure |
|
57
|
148
|
5eqmA |
Crystal structure of murine neuroglobin at 310 mpa pressure |
|
60
|
148
|
5eetA |
Crystal structure of murine neuroglobin at ambient pressure |
|
58
|
141
|
5e83A |
Crystal structure of carbonmonoxy hemoglobin s (liganded sickle cell hemoglobin) complexed with gbt440, co-crystallization experiment |
|
52
|
148
|
5f0bA |
Crystal structure of murine neuroglobin mutant f106w at 280 mpa pressure |
|
59
|
148
|
5ev5A |
Crystal structure of murine neuroglobin mutant v101f at 150 mpa pressure |
|
72
|
184
|
5aqdM |
Crystal structure of phormidium phycoerythrin at ph 8.5 |
|
61
|
141
|
5e29A |
Crystal structure of deoxygenated hemoglobin in complex with an allosteric effector and nitric oxide |
|
60
|
146
|
5euiB |
Structure of predicted ancestral pika hemoglobin |
|
65
|
164
|
5aqdA |
Crystal structure of phormidium phycoerythrin at ph 8.5 |
|
57
|
141
|
5ee4C |
The crystal structure of hpua from kingella denitrificans in complex with human haemoglobin |
|
57
|
146
|
5e6eB |
Crystal structure of carbonmonoxy sickle hemoglobin in r-state conformation |
|
61
|
148
|
5eysA |
Crystal structure of murine neuroglobin mutant f106w at ambient pressure |
|
60
|
148
|
5eu2A |
Crystal structure of murine neuroglobin mutant v101f at ambient pressure |
|
54
|
146
|
5ee4D |
The crystal structure of hpua from kingella denitrificans in complex with human haemoglobin |
|
59
|
146
|
5e83B |
Crystal structure of carbonmonoxy hemoglobin s (liganded sickle cell hemoglobin) complexed with gbt440, co-crystallization experiment |
|
51
|
134
|
5euiA |
Structure of predicted ancestral pika hemoglobin |
|
58
|
148
|
5eohA |
Crystal structure of murine neuroglobin at 270 mpa pressure |
|
55
|
141
|
5e6eA |
Crystal structure of carbonmonoxy sickle hemoglobin in r-state conformation |
|
57
|
145
|
5e29B |
Crystal structure of deoxygenated hemoglobin in complex with an allosteric effector and nitric oxide |
|
63
|
152
|
5d5rA |
Horse-heart myoglobin - deoxy state |
|
66
|
162
|
4z8kA |
Phycocyanin structure from t. elongatus at 2.5-a from xfel using a viscous delivery medium for serial femtosecond crystallography |
|
72
|
172
|
4z8kB |
Phycocyanin structure from t. elongatus at 2.5-a from xfel using a viscous delivery medium for serial femtosecond crystallography |
|
54
|
146
|
4yu3B |
The crystal structure of mongoose (helogale parvula) hemoglobin at ph 8.2 |
|
53
|
141
|
4yu3A |
The crystal structure of mongoose (helogale parvula) hemoglobin at ph 8.2 |
|
47
|
121
|
5d1vA |
Crystal structure and thermal stability of hemoglobin from thermophilic phototrophic bacterium chloroflexus aurantiacus |
|
57
|
152
|
5cngA |
Ultrafast dynamics in myoglobin: 150 ps time delay |
