|
57
|
152
|
3sdnA |
Structure of g65i sperm whale myoglobin mutant |
|
53
|
146
|
3s65B |
Structures and oxygen affinities of crystalline human hemoglobin c (beta6 lys) in the r2 quaternary structures |
|
56
|
146
|
3s66B |
Structures and oxygen affinities of crystalline human hemoglobin c (beta6 lys) in the r quaternary structures |
|
51
|
141
|
3s65A |
Structures and oxygen affinities of crystalline human hemoglobin c (beta6 lys) in the r2 quaternary structures |
|
55
|
139
|
3s66A |
Structures and oxygen affinities of crystalline human hemoglobin c (beta6 lys) in the r quaternary structures |
|
54
|
131
|
3s1jA |
Crystal structure of acetate-bound hell's gate globin i |
|
46
|
138
|
3s48C |
Human alpha-haemoglobin complexed with the first neat domain of isdh from staphylococcus aureus |
|
53
|
131
|
3s1iA |
Crystal structure of oxygen-bound hell's gate globin i |
|
60
|
153
|
3rj6A |
Crystal structure of horse heart ferric myoglobin; k45e/k63e/k96e mutant |
|
62
|
149
|
3rgkA |
Crystal structure of human myoglobin mutant k45r |
|
62
|
153
|
3rjnB |
Horse heart myoglobin: d44k/d60k mutant with zinc (ii) -deuteroporphyrin dimethyl ester |
|
56
|
143
|
6bwuB |
Crystal structure of carboxyhemoglobin in complex with beta cys93 modifying agent, td3 |
|
67
|
154
|
2mbwA |
Recombinant sperm whale myoglobin (met) |
|
60
|
154
|
2eb8A |
Crystal structure of cu(ii)(sal-phe)/apo-myoglobin |
|
48
|
146
|
2m6zB |
Refined solution structure of human adult hemoglobin in the carbonmonoxy form |
|
64
|
153
|
5ychA |
Ancestral myoglobin ambwb of basilosaurus relative (monophyly) |
|
53
|
145
|
5x2rB |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 10 mm phosphate ph 6.9. |
|
54
|
145
|
5x2sB |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 4 mm bezafibrate ph 6.5. |
|
49
|
140
|
5x2uA |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 80 mm phosphate ph 6.7. |
|
55
|
145
|
5x2tB |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 4 mm bezafibrate ph 7.2. |
|
57
|
145
|
5x2uB |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 80 mm phosphate ph 6.7. |
|
47
|
140
|
5x2rA |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 10 mm phosphate ph 6.9. |
|
46
|
140
|
5x2sA |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 4 mm bezafibrate ph 6.5. |
|
45
|
140
|
5x2tA |
Direct observation of conformational population shifts in hemoglobin: crystal structure of half-liganded hemoglobin after adding 4 mm bezafibrate ph 7.2. |
|
58
|
137
|
5wohA |
Human hemoglobin immersed in liquid oxygen for 20 seconds |
|
58
|
137
|
5wogA |
Human hemoglobin immersed in liquid oxygen for 1 minute |
|
59
|
146
|
5wogC |
Human hemoglobin immersed in liquid oxygen for 1 minute |
|
57
|
146
|
5wohB |
Human hemoglobin immersed in liquid oxygen for 20 seconds |
|
43
|
143
|
5vmmB |
Staphylococcus aureus isdb bound to human hemoglobin |
|
63
|
153
|
5vzqA |
Sperm whale myoglobin v68a/i107y with nitric oxide |
|
53
|
137
|
5vtsA |
Dehaloperoxidase b y28f mutant |
|
49
|
137
|
5v5rA |
Dehaloperoxidase a i9l mutant |
|
50
|
137
|
5v5qA |
Dehaloperoxidase b l9i mutant |
|
52
|
137
|
5v5jA |
Oxyferrous dehaloperoxidase b |
|
65
|
152
|
5utcA |
Deoxy form of sperm whale myoglobin v68a/i107y |
|
58
|
141
|
5urcA |
Design, synthesis, functional and biological evaluation of ether and ester derivatives of the antisickling agent 5-hmf for the treatment of sickle cell disease |
|
63
|
153
|
5ut8A |
Deoxy form of sperm whale myoglobin h64a |
|
61
|
146
|
5urcB |
Design, synthesis, functional and biological evaluation of ether and ester derivatives of the antisickling agent 5-hmf for the treatment of sickle cell disease |
|
64
|
152
|
5utbA |
Met form of sperm whale myoglobin v68a/i107y |
|
62
|
153
|
5utaA |
Sperm whale myoglobin h64q with nitrite |
|
62
|
154
|
5ut7A |
Wild-type sperm whale myoglobin with nitrite |
|
61
|
151
|
5utdA |
Sperm whale myoglobin v68a/i107y with nitrite |
|
62
|
153
|
5ut9A |
Sperm whale myoglobin h64a with nitrite |
|
55
|
146
|
5u3iB |
Crystal structure of carbonmonoxy hemoglobin s (liganded sickle cell hemoglobin) complexed with gbt compound 31 |
|
57
|
140
|
5ucuA |
Structural and mechanistic insights into hemoglobin-catalyzed hydrogen sulfide oxidation and the fate of polysulfide products |
|
56
|
146
|
5ufjB |
Crystal structure of carbonmonoxy hemoglobin s (liganded sickle cell hemoglobin) complexed with gbt compound 6 |
|
58
|
146
|
5ucuB |
Structural and mechanistic insights into hemoglobin-catalyzed hydrogen sulfide oxidation and the fate of polysulfide products |
|
56
|
141
|
5ufjA |
Crystal structure of carbonmonoxy hemoglobin s (liganded sickle cell hemoglobin) complexed with gbt compound 6 |
|
56
|
141
|
5u3iA |
Crystal structure of carbonmonoxy hemoglobin s (liganded sickle cell hemoglobin) complexed with gbt compound 31 |
|
58
|
146
|
5sw7B |
Structure of the human hemoglobin mutant hb providence (a-gly-c:v1m; b,d:v1m,k82d; ferrous, carbonmonoxy bound) |
