|
57
|
137
|
3ok5A |
Structure of the h55d mutant of dehaloperoxidase-hemoglobin a from amphitriti ornata with 4-bromophenol inhibitor |
|
56
|
139
|
3p5qA |
Ferric r-state human aquomethemoglobin |
|
55
|
141
|
3oo4A |
R-state human hemoglobin: nitriheme modified at alpha |
|
56
|
146
|
3p5qB |
Ferric r-state human aquomethemoglobin |
|
52
|
137
|
3ordA |
Structural evidence for stabilization of inhibitor binding by a protein cavity in the dehaloperoxidase-hemoglobin from amphitrite ornata |
|
58
|
143
|
3oo5B |
R-state human hemoglobin: nitriheme modified |
|
129
|
403
|
3ozwA |
The crystal structure of flavohemoglobin from r. eutrophus in complex with ketoconazole |
|
56
|
140
|
3onzA |
Human tetrameric hemoglobin: proximal nitrite ligand at beta |
|
51
|
137
|
3oj1A |
Structure of the h55d mutant of dehaloperoxidase-hemoglobin a from amphitrite ornata |
|
135
|
403
|
3ozvA |
The crystal structure of flavohemoglobin from r. eutrophus in complex with econazole |
|
68
|
172
|
3o18B |
Crystal structure of c-phycocyanin from themosynechococcus vulcanus at 1.35 angstroms resolution |
|
68
|
172
|
3o2cB |
Crystal structure of a rod form of c-phycocyanin from themosynechococcus vulcanus at 1.5 angstroms |
|
62
|
153
|
3o89A |
Crystal structure of sperm whale myoglobin g65t |
|
65
|
162
|
3o18A |
Crystal structure of c-phycocyanin from themosynechococcus vulcanus at 1.35 angstroms resolution |
|
52
|
146
|
3odqB |
Structure of a crystal form of human methemoglobin indicative of fiber formation |
|
66
|
162
|
3o2cA |
Crystal structure of a rod form of c-phycocyanin from themosynechococcus vulcanus at 1.5 angstroms |
|
55
|
141
|
3odqA |
Structure of a crystal form of human methemoglobin indicative of fiber formation |
|
56
|
137
|
3o7nA |
The v59w mutation blocks the distal pocket of the hemoglobin - dehaloperoxidase from amphitrite ornata |
|
58
|
141
|
3nmmA |
Human hemoglobin a mutant alpha h58w deoxy-form |
|
55
|
146
|
3nl7B |
Human hemoglobin a mutant beta h63w carbonmonoxy-form |
|
52
|
146
|
3nfeB |
The crystal structure of hemoglobin i from trematomus newnesi in deoxygenated state |
|
92
|
383
|
3nuhB |
A domain insertion in e. coli gyrb adopts a novel fold that plays a critical role in gyrase function |
|
53
|
146
|
3nmmB |
Human hemoglobin a mutant alpha h58w deoxy-form |
|
59
|
142
|
3ng6A |
The crystal structure of hemoglobin i from trematomus newnesi in deoxygenated state obtained through an oxidation/reduction cycle in which potassium hexacyanoferrate and sodium dithionite were alternatively added |
|
59
|
142
|
3nfeA |
The crystal structure of hemoglobin i from trematomus newnesi in deoxygenated state |
|
60
|
154
|
3nmlA |
Sperm whale myoglobin mutant h64w carbonmonoxy-form |
|
55
|
146
|
3ng6B |
The crystal structure of hemoglobin i from trematomus newnesi in deoxygenated state obtained through an oxidation/reduction cycle in which potassium hexacyanoferrate and sodium dithionite were alternatively added |
|
52
|
141
|
3nl7A |
Human hemoglobin a mutant beta h63w carbonmonoxy-form |
|
57
|
137
|
3mynA |
Mutation of methionine-86 in dehaloperoxidase-hemoglobin: effects of the asp-his-fe triad in a 3/3 globin |
|
58
|
153
|
3mn0A |
Introducing a 2-his-1-glu non-heme iron center into myoglobin confers nitric oxide reductase activity: cu(ii)-cn-febmb(-his) form |
|
67
|
161
|
3mvcA |
High resolution crystal structure of the heme domain of glb-6 from c. elegans |
|
55
|
137
|
3mymA |
Mutation of methionine-86 in dehaloperoxidase-hemoglobin: effects of the asp-his-fe triad in a 3/3 globin |
|
49
|
136
|
3mkbB |
Crystal structure determination of shortfin mako (isurus oxyrinchus) hemoglobin at 1.9 angstrom resolution |
|
55
|
137
|
3mouA |
Characterization of the inhibitor binding site of the dehaloperoxidase-hemoglobin from amphitrite ornata using high-pressure xenon derivatization |
|
31
|
133
|
3mwnA |
Structure of the novel 14 kda fragment of alpha-subunit of phycoerythrin from the starving cyanobacterium phormidium tenue |
|
38
|
146
|
3mjpB |
Crystal structure determination of japanese quail (coturnix coturnix japonica) hemoglobin at 2.76 angstrom resolution |
|
61
|
153
|
3m3bA |
The roles of glutamates and metal ions in a rationally designed nitric oxide reductase based on myoglobin: zn(ii)-i107e febmb (zn(ii) binding to feb site) |
|
39
|
141
|
3mjpA |
Crystal structure determination of japanese quail (coturnix coturnix japonica) hemoglobin at 2.76 angstrom resolution |
|
52
|
140
|
3mkbA |
Crystal structure determination of shortfin mako (isurus oxyrinchus) hemoglobin at 1.9 angstrom resolution |
|
35
|
146
|
3mjuB |
Crystal structure determination of pigeon (columba livia) haemoglobin at 3.5 angstrom resolution |
|
59
|
153
|
3m3aA |
The roles of glutamates and metal ions in a rationally designed nitric oxide reductase based on myoglobin: cu(ii)-i107e febmb (cu(ii) binding to feb site) |
|
61
|
153
|
3m39A |
The roles of glutamates and metal ions in a rationally designed nitric oxide reductase based on myoglobin: fe(ii)-i107e febmb (fe(ii) binding to feb site) |
|
47
|
141
|
3mjuA |
Crystal structure determination of pigeon (columba livia) haemoglobin at 3.5 angstrom resolution |
|
60
|
153
|
3m38A |
The roles of glutamates and metal ions in a rationally designed nitric oxide reductase based on myoglobin: i107e febmb (no metal ion binding to feb site) |
|
55
|
146
|
3mbaA |
Aplysia limacina myoglobin. crystallographic analysis at 1.6 angstroms resolution |
|
54
|
141
|
3lqdA |
Crystal structure determination of lepus europaeus 2.8 a resolution |
|
61
|
152
|
3lr9A |
X-ray photogenerated ferrous horse heart myoglobin, nitrite adduct |
|
54
|
146
|
3lqdB |
Crystal structure determination of lepus europaeus 2.8 a resolution |
|
61
|
151
|
3lr7A |
Ferric horse heart myoglobin, nitrite adduct |
|
30
|
129
|
3lq9A |
Crystal structure of human redd1, a hypoxia-induced regulator of mtor |
