|
73
|
158
|
3e2cA |
Escherichia coli bacterioferritin mutant e128r/e135r |
|
73
|
158
|
3e1lA |
Crystal structure of e. coli bacterioferritin (bfr) soaked in phosphate with an alternative conformation of the unoccupied ferroxidase centre (apo-bfr ii). |
|
73
|
158
|
3e1qA |
Crystal structure of w133f variant e. coli bacterioferritn with iron. |
|
76
|
194
|
3a9qA |
Crystal structure analysis of e173a variant of the soybean ferritin sfer4 |
|
79
|
172
|
3ajqA |
Crystal structure of human h ferritin e140q mutant |
|
79
|
172
|
3ajoA |
Crystal structure of wild-type human ferritin h chain |
|
78
|
172
|
3ajpA |
Crystal structure of human h ferritin e140a mutant |
|
77
|
194
|
3a68A |
Crystal structure of plant ferritin reveals a novel metal binding site that functions as a transit site for metal transfer in ferritin |
|
75
|
172
|
2z6mA |
Crystal structure of human ferritin h8 as biotemplate for noble metal nanoparticle synthesis |
|
77
|
157
|
2y3qA |
1.55a structure of apo bacterioferritin from e. coli |
|
71
|
161
|
2wtlA |
Crystal structure of bfra from m. tuberculosis |
|
75
|
172
|
2wluA |
Iron-bound crystal structure of streptococcus pyogenes dpr |
|
77
|
157
|
2vxiA |
The binding of heme and zinc in escherichia coli bacterioferritin |
|
76
|
172
|
2iu2A |
Recombinant human h ferritin, k86q, e27d and e107d mutant, soaked with zn ions |
|
71
|
158
|
2htnA |
E. coli bacterioferritin in its as-isolated form |
|
23
|
123
|
2ga5A |
Yeast frataxin |
|
23
|
112
|
2fqlA |
Crystal structure of trimeric frataxin from the yeast saccharomyces cerevisiae |
|
64
|
155
|
2fl0A |
Oxidized (all ferric) form of the azotobacter vinelandii bacterioferritin |
|
70
|
155
|
2fkzA |
Reduced (all ferrous) form of the azotobacter vinelandii bacterioferritin |
|
78
|
172
|
2fhaA |
Human h chain ferritin |
|
76
|
172
|
2cihA |
Recombinant human h ferritin, k86q and e27d mutant, soaked with zn |
|
78
|
172
|
2chiA |
Recombinant human h ferritin, k86q and e27d mutant |
|
78
|
172
|
2cn7A |
Recombinant human h ferritin, k86q, e27d and e107d mutant |
|
78
|
172
|
2cn6A |
Recombinant human h ferritin, k86q and e107d mutant, soaked with zn ions |
|
77
|
172
|
2cluA |
Recombinant human h ferritin, k86q and e107d mutant |
|
76
|
172
|
2ceiA |
Recombinant human h ferritin, k86q mutant, soaked with zn |
|
64
|
155
|
1sofA |
Crystal structure of the azotobacter vinelandii bacterioferritin at 2.6 a resolution |
|
75
|
171
|
1r03A |
Crystal structure of a human mitochondrial ferritin |
|
74
|
169
|
1nf4A |
X-ray structure of the desulfovibrio desulfuricans bacterioferritin: the diiron site in different states (reduced structure) |
|
77
|
170
|
1nf6A |
X-ray structure of the desulfovibrio desulfuricans bacterioferritin: the diiron site in different catalytic states ("cycled" structure: reduced in solution and allowed to reoxidise before crystallisation) |
|
75
|
169
|
1nfvA |
X-ray structure of desulfovibrio desulfuricans bacterioferritin: the diiron centre in different catalytic states (as-isolated structure) |
|
72
|
171
|
1mfrA |
Crystal structure of m ferritin |
|
21
|
121
|
1ly7A |
The solution structure of the the c-terminal domain of frataxin, the protein responsible for friedreich ataxia |
|
72
|
160
|
1jgcA |
The 2.6 a structure resolution of rhodobacter capsulatus bacterioferritin with metal-free dinuclear site and heme iron in a crystallographic special position |
|
32
|
119
|
1ekgA |
Mature human frataxin |
|
72
|
172
|
1fhaA |
Solving the structure of human h ferritin by genetically engineering intermolecular crystal contacts |
|
71
|
158
|
1bfrA |
Iron storage and electron transport |
|
68
|
158
|
1bcfA |
The structure of a unique, two-fold symmetric, haem-binding site |
|
61
|
173
|
1bg7A |
Localized unfolding at the junction of three ferritin subunits. a mechanism for iron release? |
