|
55
|
146
|
5lfgB |
X-ray structure of a new fully ligated carbomonoxy form of trematomus newnesi hemoglobin (hb1tnco). |
|
55
|
142
|
5lfgA |
X-ray structure of a new fully ligated carbomonoxy form of trematomus newnesi hemoglobin (hb1tnco). |
|
54
|
141
|
5ksjA |
Crystal structure of deoxygenated hemoglobin in complex with sphingosine phosphate |
|
63
|
154
|
5kkkA |
1.7-angstrom in situ mylar structure of sperm whale myoglobin (swmb-co) at 100 k |
|
63
|
141
|
5ksiA |
Crystal structure of deoxygenated hemoglobin in complex with sphingosine phosphate and 2,3-bisphosphoglycerate |
|
51
|
146
|
5ksjB |
Crystal structure of deoxygenated hemoglobin in complex with sphingosine phosphate |
|
57
|
146
|
5ksiB |
Crystal structure of deoxygenated hemoglobin in complex with sphingosine phosphate and 2,3-bisphosphoglycerate |
|
93
|
249
|
5jdoA |
T. congolense haptoglobin-haemoglobin receptor in complex with haemoglobin |
|
95
|
245
|
5jdoB |
T. congolense haptoglobin-haemoglobin receptor in complex with haemoglobin |
|
58
|
146
|
5kdqB |
Deoxyhemoglobin in complex with an aryloxyalkanoic acid |
|
60
|
141
|
5kdqA |
Deoxyhemoglobin in complex with an aryloxyalkanoic acid |
|
62
|
153
|
5kd1A |
Sperm whale myoglobin h64a with nitrosoamphetamine |
|
51
|
145
|
5jdoD |
T. congolense haptoglobin-haemoglobin receptor in complex with haemoglobin |
|
53
|
141
|
5jdoC |
T. congolense haptoglobin-haemoglobin receptor in complex with haemoglobin |
|
58
|
141
|
5hy8A |
Glycation restrains allosteric transition in hemoglobin: the molecular basis of oxidative stress under hyperglycemic conditions in diabetes |
|
209
|
825
|
4yd9B |
Crystal structure of squid hemocyanin |
|
65
|
145
|
7hbiA |
Scapharca dimeric hemoglobin, mutant t72v, co-liganded form |
|
66
|
145
|
6hbiA |
Scapharca dimeric hemoglobin, mutant t72v, deoxy form |
|
54
|
146
|
6fqfA |
The x-ray structure of ferric-beta4 human hemoglobin |
|
57
|
148
|
6eyeA |
Crystal structure of murine neuroglobin under 150 bar krypton |
|
58
|
146
|
6di4B |
Rational modification of vanillin derivatives to stereospecifically destabilize sickle hemoglobin polymer formation |
|
59
|
141
|
6di4A |
Rational modification of vanillin derivatives to stereospecifically destabilize sickle hemoglobin polymer formation |
|
60
|
141
|
6bwpA |
Crystal structure of deoxy hemoglobin in complex with beta cys93 modifying agent, td3 |
|
53
|
146
|
6bwpB |
Crystal structure of deoxy hemoglobin in complex with beta cys93 modifying agent, td3 |
|
62
|
146
|
6bnrB |
Carbonmonoxy hemoglobin in complex with the antisickling agent 5-methoxy-2-(pyridin-2-ylmethoxy)benzaldehyde (inn310) |
|
56
|
141
|
6bnrA |
Carbonmonoxy hemoglobin in complex with the antisickling agent 5-methoxy-2-(pyridin-2-ylmethoxy)benzaldehyde (inn310) |
|
55
|
140
|
6bwuA |
Crystal structure of carboxyhemoglobin in complex with beta cys93 modifying agent, td3 |
|
54
|
145
|
6bb5B |
Human oxy-hemoglobin |
|
51
|
139
|
6bb5A |
Human oxy-hemoglobin |
|
66
|
154
|
5yzfA |
X-ray crystal structure of met k42c sperm whale myoglobin |
|
66
|
153
|
5zeoA |
X-ray structure of sperm whale v21c/v66c/f46s myoglobin mutant with an intramolecular disulfide bond |
|
63
|
151
|
5xl0A |
Met-aquo form of sperm whale myoglobin reconstituted with 7-pf, a heme possesseing cf3 group as side chain |
|
60
|
153
|
5vnuA |
Nonheme iron replacement in a biosynthetic nitric oxide reductase model performing o2 reduction to water: mn-bound febmb |
|
48
|
131
|
5v3uA |
Crystal structure of the group ii truncated hemoglobin from bacillus anthracis: trp90leu mutant |
|
49
|
130
|
5v3tA |
Crystal structure of the group ii truncated hemoglobin from bacillus anthracis |
|
51
|
130
|
5v3vA |
Crystal structure of the group ii truncated hemoglobin from bacillus anthracis: tyr26ala mutant |
|
64
|
153
|
5wjkA |
2.0-angstrom in situ mylar structure of sperm whale myoglobin (swmb) at 293 k |
|
65
|
151
|
5vznA |
Wild-type sperm whale myoglobin with nitric oxide |
|
63
|
153
|
5vzoA |
Sperm whale myoglobin h64a with nitric oxide |
|
61
|
153
|
5vzpA |
Sperm whale myoglobin h64q with nitric oxide |
|
61
|
153
|
5vrtA |
Nonheme iron replacement in a biosynthetic nitric oxide reductase model performing o2 reduction to water: co-bound febmb |
|
57
|
146
|
5c6eB |
Joint x-ray/neutron structure of equine cyanomet hemoglobin in r state |
|
401
|
1734
|
4bedB |
Keyhole limpet hemocyanin (klh): 9a cryoem structure and molecular model of the klh1 didecamer reveal the interfaces and intricate topology of the 160 functional units |
|
395
|
1664
|
4bedA |
Keyhole limpet hemocyanin (klh): 9a cryoem structure and molecular model of the klh1 didecamer reveal the interfaces and intricate topology of the 160 functional units |
|
57
|
141
|
4yu4A |
Crystal structure of mongoose (helogale parvula) hemoglobin at ph 7.0 |
|
81
|
383
|
4yd9C |
Crystal structure of squid hemocyanin |
|
48
|
146
|
4yu4B |
Crystal structure of mongoose (helogale parvula) hemoglobin at ph 7.0 |
|
45
|
110
|
4f69A |
Carbonmonoxy structure of tyr11phe/gln44leu/thr48val/ala55trp cerebratulus lacteus mini-hemoglobin |
|
45
|
110
|
4f6bA |
Aquomet structure of his100phe cerebratulus lacteus mini-hemoglobin |
|
46
|
110
|
4f6fA |
Carbonmonoxy structure of his100phe cerebratulus lacteus mini-hemoglobin |
