|
26
|
151
|
7b70B |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
189
|
718
|
7b6rB |
Drosophila melanogaster trappiii partial complex: core plus c8 and c11 attached region |
|
38
|
165
|
7b6dA |
Drosophila melanogaster trappcore (c1, c2, c2l, c3a/b, c4, c5, c6 subunits) |
|
43
|
139
|
7b6rG |
Drosophila melanogaster trappiii partial complex: core plus c8 and c11 attached region |
|
44
|
165
|
7b70A |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
34
|
145
|
7b6dC |
Drosophila melanogaster trappcore (c1, c2, c2l, c3a/b, c4, c5, c6 subunits) |
|
31
|
138
|
7b6dH |
Drosophila melanogaster trappcore (c1, c2, c2l, c3a/b, c4, c5, c6 subunits) |
|
38
|
165
|
7b6rC |
Drosophila melanogaster trappiii partial complex: core plus c8 and c11 attached region |
|
28
|
151
|
7b6rD |
Drosophila melanogaster trappiii partial complex: core plus c8 and c11 attached region |
|
34
|
145
|
7b6rE |
Drosophila melanogaster trappiii partial complex: core plus c8 and c11 attached region |
|
32
|
145
|
7b70C |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
39
|
219
|
7b70D |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
95
|
307
|
7b6rA |
Drosophila melanogaster trappiii partial complex: core plus c8 and c11 attached region |
|
95
|
307
|
7b6eA |
Drosophila melanogaster trapp c8 subunits region 355 to 661 |
|
45
|
164
|
7b6dF |
Drosophila melanogaster trappcore (c1, c2, c2l, c3a/b, c4, c5, c6 subunits) |
|
45
|
164
|
7b70F |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
33
|
138
|
7b70H |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
86
|
246
|
7b70I |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
182
|
718
|
7b70J |
Trappcore plus c8 (355-596) and c11 (1-718) from minitrappiii |
|
29
|
63
|
6wvwD |
Crystal structure of the r59p-snap25 containing snare complex |
|
32
|
66
|
6wvwB |
Crystal structure of the r59p-snap25 containing snare complex |
|
28
|
62
|
6wvwA |
Crystal structure of the r59p-snap25 containing snare complex |
|
35
|
73
|
6wvwC |
Crystal structure of the r59p-snap25 containing snare complex |
|
34
|
138
|
6lcyA |
Crystal structure of synaptotagmin-7 c2b in complex with ip6 |
|
34
|
148
|
6u41A |
1.7 angstrom structure of a pathogenic human syt 1 c2b (d304g) |
|
33
|
148
|
6u4uA |
1.3 a structure of a pathogenic human syt 1 c2b (i368t) |
|
32
|
149
|
6u4wA |
1.4 a structure of a pathogenic human syt 1 c2b (d366e) |
|
32
|
148
|
6tz3A |
Crystal structure of human synaptotagmin 1 c2b without ca2+ |
|
135
|
588
|
6lpcA |
Crystal structure of rat munc18-1 with k332e/k333e mutation |
|
40
|
296
|
6q9mA |
Central fibronectin-iii array of rim-binding protein |
|
9
|
95
|
1hk6A |
Ral binding domain from sec5 |
|
192
|
537
|
6a30A |
Crystal structure of munc13-1 mun domain and synaptobrevin-2 juxtamembrane linker region |
|
46
|
173
|
6a68A |
The crystal structure of rat calcium-dependent activator protein for secretion (caps) damh domain |
|
20
|
127
|
6cxwA |
Synaptotagmin 1 c2a beta4 chimera with enhanced pip2 binding function |
|
14
|
127
|
6mti1 |
Synaptotagmin-1 c2a, c2b domains and snare-pin proteins (5cci) individually docked into cryo-em map of c2ab-snare complexes helically organized on lipid nanotube surface in presence of mg2+ |
|
27
|
62
|
6mtiA |
Synaptotagmin-1 c2a, c2b domains and snare-pin proteins (5cci) individually docked into cryo-em map of c2ab-snare complexes helically organized on lipid nanotube surface in presence of mg2+ |
|
34
|
73
|
6mtiC |
Synaptotagmin-1 c2a, c2b domains and snare-pin proteins (5cci) individually docked into cryo-em map of c2ab-snare complexes helically organized on lipid nanotube surface in presence of mg2+ |
|
40
|
280
|
6mti2 |
Synaptotagmin-1 c2a, c2b domains and snare-pin proteins (5cci) individually docked into cryo-em map of c2ab-snare complexes helically organized on lipid nanotube surface in presence of mg2+ |
|
31
|
67
|
6mtiB |
Synaptotagmin-1 c2a, c2b domains and snare-pin proteins (5cci) individually docked into cryo-em map of c2ab-snare complexes helically organized on lipid nanotube surface in presence of mg2+ |
|
29
|
64
|
6mtiD |
Synaptotagmin-1 c2a, c2b domains and snare-pin proteins (5cci) individually docked into cryo-em map of c2ab-snare complexes helically organized on lipid nanotube surface in presence of mg2+ |
|
43
|
171
|
6hufA |
Coping with strong translational non-crystallographic symmetry and extreme anisotropy in molecular replacement with phaser: human rab27a |
|
194
|
1044
|
5yfpD |
Cryo-em structure of the exocyst complex |
|
197
|
623
|
5yfpG |
Cryo-em structure of the exocyst complex |
|
111
|
722
|
5yfpA |
Cryo-em structure of the exocyst complex |
|
154
|
849
|
5yfpF |
Cryo-em structure of the exocyst complex |
|
24
|
138
|
5lobA |
Structure of the ca2+-bound rabphilin3a c2b- snap25 complex (c2 space group) |
|
34
|
85
|
5lobD |
Structure of the ca2+-bound rabphilin3a c2b- snap25 complex (c2 space group) |
|
30
|
68
|
5lowD |
Structure of the ca2+-bound rabphilin 3a c2b domain snap25 complex (p21 space group) |
|
25
|
66
|
5lobE |
Structure of the ca2+-bound rabphilin3a c2b- snap25 complex (c2 space group) |
|
23
|
56
|
5lowE |
Structure of the ca2+-bound rabphilin 3a c2b domain snap25 complex (p21 space group) |
