|
228
|
664
|
1uvnA |
The structural basis for rna specificity and ca2 inhibition of an rna-dependent rna polymerase phi6p2 ca2+ inhibition complex |
|
243
|
664
|
1uvjA |
The structural basis for rna specificity and ca2 inhibition of an rna-dependent rna polymerase phi6p2 with 7nt rna |
|
247
|
664
|
1uviA |
The structural basis for rna specificity and ca2 inhibition of an rna-dependent rna polymerase phi6p2 with 6nt rna |
|
251
|
664
|
1uvmA |
The structural basis for rna specificity and ca2 inhibition of an rna-dependent rna polymerase phi6p2 with 5nt rna conformation a |
|
249
|
664
|
1uvlA |
The structural basis for rna specificity and ca2 inhibition of an rna-dependent rna polymerase phi6p2 with 5nt rna. conformation b |
|
235
|
664
|
4a8fA |
Non-catalytic ions direct the rna-dependent rna polymerase of bacterial dsrna virus phi6 from de novo initiation to elongation |
|
239
|
664
|
1hi0P |
Rna dependent rna polymerase from dsrna bacteriophage phi6 plus initiation complex |
|
233
|
664
|
1hhtP |
Rna dependent rna polymerase from dsrna bacteriophage phi6 plus template |
|
233
|
664
|
4a8sA |
Non-catalytic ions direct the rna-dependent rna polymerase of bacterial dsrna virus phi6 from de novo initiation to elongation |
|
234
|
664
|
4a8kA |
Non-catalytic ions direct the rna-dependent rna polymerase of bacterial dsrna virus phi6 from de novo initiation to elongation |
|
235
|
664
|
4a8wA |
Non-catalytic ions direct the rna-dependent rna polymerase of bacterial dsrna virus phi6 from de novo initiation to elongation |
|
237
|
664
|
4a8qA |
Non-catalytic ions direct the rna-dependent rna polymerase of bacterial dsrna virus phi6 from de novo initiation to elongation |
|
236
|
664
|
4a8yA |
Non-catalytic ions direct the rna-dependent rna polymerase of bacterial dsrna virus phi6 from de novo initiation to elongation |
|
236
|
664
|
4a8mP |
Non-catalytic ions direct the rna-dependent rna polymerase of bacterial dsrna virus phi6 from de novo initiation to elongation |
|
230
|
664
|
2jlgA |
Structural explanation for the role of mn in the activity of phi6 rna-dependent rna polymerase |
|
60
|
151
|
5iksA |
Wild-type sperm whale myoglobin with a fe-phenyl moiety |
|
62
|
151
|
5ilpA |
H64q sperm whale myoglobin with a fe-tolyl moiety |
|
64
|
151
|
5ilrA |
H64q sperm whale myoglobin with a fe-chlorophenyl moiety |
|
57
|
142
|
5sw7A |
Structure of the human hemoglobin mutant hb providence (a-gly-c:v1m; b,d:v1m,k82d; ferrous, carbonmonoxy bound) |
|
65
|
153
|
5mbnA |
Refinement of myoglobin and cytochrome c |
|
57
|
146
|
5mbaA |
Binding mode of azide to ferric aplysia limacina myoglobin. crystallographic analysis at 1.9 angstroms resolution |
|
66
|
154
|
5m3sA |
Low-dose fixed target serial synchrotron crystallography structure of metmyoglobin |
|
63
|
154
|
5kkkA |
1.7-angstrom in situ mylar structure of sperm whale myoglobin (swmb-co) at 100 k |
|
60
|
141
|
5kdqA |
Deoxyhemoglobin in complex with an aryloxyalkanoic acid |
|
53
|
140
|
5kerA |
Deer mouse recombinant hemoglobin from high altitude species |
|
63
|
154
|
5jomA |
X-ray structure of co-bound sperm whale myoglobin using a fixed target crystallography chip |
|
58
|
146
|
5kdqB |
Deoxyhemoglobin in complex with an aryloxyalkanoic acid |
|
56
|
146
|
5kerB |
Deer mouse recombinant hemoglobin from high altitude species |
|
57
|
142
|
5jggA |
X-ray sequence and high resolution crystal structure of persian sturgeon methemoglobin |
|
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 |
|
57
|
141
|
5hu6B |
Structure of the t. brucei haptoglobin-haemoglobin receptor bound to human haptolgobin-haemoglobin |
|
68
|
153
|
5havA |
Sperm whale myoglobin mutant l29h f33y f43h (f33y cubmb) with oxygen bound |
|
65
|
152
|
5hlqA |
X-ray crystal structure of met f43h/h64a sperm whale myoglobin |
|
65
|
145
|
7hbiA |
Scapharca dimeric hemoglobin, mutant t72v, co-liganded form |
|
56
|
146
|
6hbwB |
Crystal structure of deoxy-human hemoglobin beta6 glu->trp |
|
66
|
145
|
6hbiA |
Scapharca dimeric hemoglobin, mutant t72v, deoxy form |
|
62
|
141
|
6hbwA |
Crystal structure of deoxy-human hemoglobin beta6 glu->trp |
|
61
|
152
|
5cn6A |
Ultrafast dynamics in myoglobin: 0.1 ps time delay |
|
65
|
164
|
5b13A |
Crystal structure of phycoerythrin |
|
61
|
152
|
5cn4A |
Ultrafast dynamics in myoglobin: -0.1 ps time delay |
|
63
|
153
|
5c6yA |
A sperm whale myoglobin double mutant l29h/f43y mb with a tyr-heme cross-link |
|
57
|
146
|
5c6eB |
Joint x-ray/neutron structure of equine cyanomet hemoglobin in r state |
|
68
|
177
|
5b13G |
Crystal structure of phycoerythrin |
|
62
|
153
|
5b84A |
X-ray crystal structure of met i107y sperm whale myoglobin |
|
63
|
153
|
5b85A |
X-ray structure of ferric f138y sperm whale myoglobin |
|
57
|
141
|
4yu4A |
Crystal structure of mongoose (helogale parvula) hemoglobin at ph 7.0 |
|
48
|
146
|
4yu4B |
Crystal structure of mongoose (helogale parvula) hemoglobin at ph 7.0 |
|
44
|
110
|
4f68A |
Oxy structure of tyr11phe/gln44leu/thr48val/ala55trp cerebratulus lacteus mini-hemoglobin |
