|
45
|
110
|
4f6gA |
Aquomet structure of his100trp cerebratulus lacteus mini-hemoglobin |
|
45
|
110
|
4f6jA |
Carbonmonoxy structure of his100trp cerebratulus lacteus mini-hemoglobin |
|
44
|
110
|
4f68A |
Oxy structure of tyr11phe/gln44leu/thr48val/ala55trp cerebratulus lacteus mini-hemoglobin |
|
47
|
110
|
4f6iA |
Oxy structure of his100trp cerebratulus lacteus mini-hemoglobin |
|
44
|
110
|
4f6dA |
Oxy structure of his100phe cerebratulus lacteus mini-hemoglobin |
|
53
|
144
|
4esaB |
X-ray structure of carbonmonoxy hemoglobin of eleginops maclovinus |
|
58
|
142
|
4esaA |
X-ray structure of carbonmonoxy hemoglobin of eleginops maclovinus |
|
62
|
150
|
4c0nA |
Crystal structure of non symbiotic plant hemoglobin ahb3 (glb3) from arabidopsis thaliana |
|
43
|
110
|
4avdA |
C.lacteus nerve hb in complex with co |
|
40
|
110
|
4aveA |
C.lacteus nerve hb in the deoxy form |
|
58
|
154
|
4b3wA |
Crystal structure of human cytoglobin h(e7)q mutant |
|
74
|
191
|
3zomA |
M.acetivorans protoglobin f145w mutant |
|
74
|
191
|
3zolA |
M.acetivorans protoglobin f93y mutant in complex with cyanide |
|
50
|
138
|
3wtgA |
Crystal structure of emu (dromaius novaehollandiae) hemoglobin at 2.3 angstrom resolution |
|
54
|
146
|
3wtgB |
Crystal structure of emu (dromaius novaehollandiae) hemoglobin at 2.3 angstrom resolution |
|
210
|
668
|
3wjmB |
Crystal structure of bombyx mori sp2/sp3 heterohexamer |
|
61
|
153
|
3wftA |
Crystal structure of horse heart myoglobin reconstituted with cobalt(ii) tetradehydrocorrin |
|
60
|
144
|
3wctB |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: oxygenated form |
|
57
|
146
|
3wcuA |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: deoxygenated form |
|
61
|
138
|
3wfwA |
Crystal structure of the closed form of the hgbrl's globin domain |
|
60
|
144
|
3wcvB |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: ca bound form |
|
57
|
147
|
3wcvD |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: ca bound form |
|
58
|
150
|
3wcvC |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: ca bound form |
|
55
|
144
|
3wcwB |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: mg bound form |
|
60
|
146
|
3wcwA |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: mg bound form |
|
57
|
147
|
3wcwD |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: mg bound form |
|
51
|
149
|
3wcuD |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: deoxygenated form |
|
63
|
146
|
3wcvA |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: ca bound form |
|
53
|
150
|
3wcwC |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: mg bound form |
|
59
|
152
|
3wfuA |
Crystal structure of horse heart myoglobin reconstituted with cobalt(i) tetradehydrocorrin |
|
52
|
150
|
3wcuC |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: deoxygenated form |
|
54
|
144
|
3wcuB |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: deoxygenated form |
|
54
|
136
|
3wfxA |
Crystal structure of the imidazole-bound form of the hgbrl's globin domain |
|
61
|
146
|
3wctA |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: oxygenated form |
|
57
|
147
|
3wctD |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: oxygenated form |
|
58
|
150
|
3wctC |
The structure of a deoxygenated 400 kda hemoglobin provides a more accurate description of the cooperative mechanism of giant hemoglobins: oxygenated form |
|
60
|
151
|
3wi8A |
Crystal structure of horse heart myoglobin reconstituted with manganese porphycene |
|
67
|
176
|
3zh0A |
Functional and structural role of the n-terminal extension in methanosarcina acetivorans protoglobin |
|
221
|
670
|
3wjmA |
Crystal structure of bombyx mori sp2/sp3 heterohexamer |
|
59
|
145
|
3w4uB |
Human zeta-2 beta-2-s hemoglobin |
|
53
|
141
|
3w4uA |
Human zeta-2 beta-2-s hemoglobin |
|
57
|
146
|
3vrgB |
The crystal structure of hemoglobin from woolly mammoth in the met form |
|
57
|
141
|
3vrgA |
The crystal structure of hemoglobin from woolly mammoth in the met form |
|
59
|
146
|
3vrfB |
The crystal structure of hemoglobin from woolly mammoth in the carbonmonoxy forms |
|
58
|
146
|
3vreB |
The crystal structure of hemoglobin from woolly mammoth in the deoxy form |
|
57
|
141
|
3vreA |
The crystal structure of hemoglobin from woolly mammoth in the deoxy form |
|
58
|
141
|
3vrfA |
The crystal structure of hemoglobin from woolly mammoth in the carbonmonoxy forms |
|
59
|
151
|
3vauA |
Myoglobin nitrite structure: nitriheme modified |
|
52
|
131
|
3ubvA |
Oxygen-bound hell's gate globin i by classical hanging drop |
|
54
|
131
|
3ubcA |
Oxygen-bound hell's gate globin i by lb nanotemplate method |
