|
22
|
129
|
7swgA |
Ctnc-tni chimera complexed with a1 |
|
23
|
129
|
7supA |
Nmr structure of ctnc-tni chimera bound to calcium and a1 |
|
76
|
229
|
7t4zA |
Crystal structure of the molybdate-binding periplasmic protein moda from the bacteria pseudomonsa aeruginosa in ligand-free form |
|
37
|
106
|
7tepA |
Crystal structure of a cu-bound cytochrome cb562 variant in the presence of reductant |
|
24
|
129
|
7sxdA |
Nmr solution structure tnc-tni chimera |
|
27
|
129
|
7svcA |
Nmr structure of ctnc-tni chimera bound to calcium and a2 |
|
76
|
230
|
7t5aA |
Crystal structure of the molybdate-binding periplasmic protein moda from the bacteria pseudomonsa aeruginosa in tungstate-bound form |
|
75
|
227
|
7t50A |
Crystal structure of the molybdate-binding periplasmic protein moda from the bacteria pseudomonsa aeruginosa in chromate-bound form |
|
46
|
106
|
7su2A |
Crystal structure of a co-bound ridc1 variant |
|
27
|
129
|
7sxcA |
Ctnc-tni chimera complexed with calcium |
|
68
|
227
|
7t51A |
Crystal structure of the molybdate-binding periplasmic protein moda from the bacteria pseudomonsa aeruginosa in molybdate-bound form |
|
47
|
106
|
7rwwA |
Crystal structure of a zn-bound ridc1 variant |
|
85
|
284
|
7rcjA |
Crystal structure of znua from citrobacter koseri |
|
46
|
106
|
7rwuA |
Crystal structure of ni-bound ridc1 variant in the presence of reductant |
|
49
|
106
|
7rwxA |
Crystal structure of a zn-bound ridc1 variant in the presence of reductant |
|
45
|
106
|
7rwyA |
Crystal structure of a fe-bound ridc1 variant in the presence of reductant |
|
43
|
106
|
7rwvA |
Crystal structure of a metal-free ridc1 variant |
|
74
|
173
|
7r5oA |
1.58 a structure of human apoferritin obtained from titan krios 2 at ebic, dls under commissioning session cm26464-2 |
|
87
|
219
|
7oyiA |
Escherichia coli ytfe_e159l(mn) |
|
77
|
340
|
7ovpA |
Crystal structure of the chemotactic adaptor protein chef |
|
39
|
122
|
7od9A |
Crystal structure of activated chey fused to the c-terminal domain of chef |
|
42
|
106
|
7n4gA |
Co-bound crystal structure of the engineered cyt cb562 variant, ab2-h100a, crystallized in the presence of co(ii) |
|
6
|
21
|
7l8vC |
Nmr structure of half-calcified calmodulin mutant (camef12) bound to the iq-motif of cav1.2 |
|
43
|
106
|
7mk4A |
Co-bound crystal structure of the engineered cyt cb562 variant, dicyt2 |
|
115
|
294
|
7m8hA |
Structure of memo1 c244s metal binding site mutant at 1.75a |
|
31
|
149
|
7l8vA |
Nmr structure of half-calcified calmodulin mutant (camef12) bound to the iq-motif of cav1.2 |
|
23
|
90
|
7od9C |
Crystal structure of activated chey fused to the c-terminal domain of chef |
|
45
|
106
|
7n4fA |
Ni-bound crystal structure of the engineered cyt cb562 variant, ab2-h100a, crystallized in the presence of ni(ii) |
|
100
|
296
|
7epqA |
Crystal structure of exopolyphosphatase (ppx) from porphyromonas gingivalis in complex with sulfate and magnesium ions |
|
76
|
272
|
7z5jA |
The molybdenum storage protein loaded with tungstate |
|
129
|
318
|
7eq7A |
Co-crystal structure analysis of annexin a2 and 5alpha-eal |
|
75
|
295
|
8hi8B |
Crystal structure of a holoenzyme tglhi with three fe ions for pseudomonas syringae peptidyl (s) 2-mercaptoglycine biosynthesis |
|
75
|
295
|
8hi7B |
Crystal structure of a holoenzyme tglhi with two fe irons for pseudomonas syringae peptidyl (s) 2-mercaptoglycine biosynthesis |
|
124
|
324
|
8bbrA |
Determination of the structure of active tyrosinase from bacterium verrucomicrobium spinosum |
|
124
|
324
|
8bbqA |
Determination of the structure of active tyrosinase from bacterium verrucomicrobium spinosum |
|
118
|
312
|
8c4yAAA |
Sfx structure of futa bound to fe(iii) |
|
35
|
139
|
7z3fA |
Crystal structure of the cupredoxin acop from acidithiobacillus ferrooxidans, oxidized form |
|
39
|
140
|
7z3gA |
Crystal structure of the cupredoxin acop from acidithiobacillus ferrooxidans, h166a mutant |
|
38
|
139
|
7z3bA |
Crystal structure of the cupredoxin acop from acidithiobacillus ferrooxidans, reduced form |
|
36
|
139
|
7z3iA |
Crystal structure of the cupredoxin acop from acidithiobacillus ferrooxidans, m171a mutant |
|
166
|
481
|
8gtzA |
Crystal structure of exopolyphosphatase (ppx) mutant e137a from zymomonas mobilis in complex with magnesium ions |
|
118
|
312
|
8oeiA |
Sfx structure of futa after an accumulated dose of 500 kgy |
|
116
|
312
|
8oenA |
Crystal structure of futa bound to fe(iii) solved by neutron diffraction |
|
80
|
269
|
8hi8A |
Crystal structure of a holoenzyme tglhi with three fe ions for pseudomonas syringae peptidyl (s) 2-mercaptoglycine biosynthesis |
|
171
|
480
|
8gtyA |
Crystal structure of exopolyphosphatase (ppx) from zymomonas mobilis in complex with magnesium ions |
|
83
|
269
|
8hi7A |
Crystal structure of a holoenzyme tglhi with two fe irons for pseudomonas syringae peptidyl (s) 2-mercaptoglycine biosynthesis |
|
27
|
122
|
8p5zA |
Artificial transfer hydrogenase with a mn-5 cofactor and streptavidin s112y-k121m mutant |
|
114
|
312
|
8oggA |
Crystal structure of futa after an accumulated dose of 5 kgy |
|
26
|
122
|
8p5yA |
Artificial transfer hydrogenase with a mn-12 cofactor and streptavidin s112y-k121m mutant |
|
119
|
312
|
8oemA |
Crystal structure of futa bound to fe(ii) |
