|
8
|
124
|
3j7812 |
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class i - non-rotated ribosome with 2 trnas) |
|
9
|
124
|
3j7712 |
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class ii - rotated ribosome with 1 trna) |
|
16
|
97
|
3j7880 |
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class i - non-rotated ribosome with 2 trnas) |
|
18
|
97
|
3j7780 |
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class ii - rotated ribosome with 1 trna) |
|
22
|
124
|
4uerU |
40s-eif1-eif1a-eif3-eif3j translation initiation complex from lachancea kluyveri |
|
27
|
122
|
3j80M |
Cryoem structure of 40s-eif1-eif1a preinitiation complex |
|
22
|
120
|
4d5lM |
Cryo-em structures of ribosomal 80s complexes with termination factors and cricket paralysis virus ires reveal the ires in the translocated state |
|
32
|
112
|
4v3pLf |
The molecular structure of the left-handed supra-molecular helix of eukaryotic polyribosomes |
|
52
|
234
|
5aj0AG |
Cryo electron microscopy of actively translating human polysomes (post state). |
|
27
|
103
|
5aj0Ac |
Cryo electron microscopy of actively translating human polysomes (post state). |
|
22
|
120
|
4d61M |
Cryo-em structures of ribosomal 80s complexes with termination factors and cricket paralysis virus ires reveal the ires in the translocated state |
|
21
|
124
|
3jahMM |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uag stop codon |
|
21
|
124
|
3jaiMM |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uga stop codon |
|
54
|
241
|
3jahG |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uag stop codon |
|
21
|
124
|
3jagMM |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uaa stop codon |
|
17
|
98
|
4ug0Lc |
Structure of the human 80s ribosome |
|
42
|
241
|
4ug0LG |
Structure of the human 80s ribosome |
|
58
|
241
|
3jagG |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uaa stop codon |
|
54
|
241
|
3jaiG |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uga stop codon |
|
26
|
97
|
5dgvO0 |
Complex of yeast 80s ribosome with hypusine-containing/non-modified eif5a and/or a peptidyl-trna analog |
|
20
|
97
|
5dgfO0 |
Complex of yeast 80s ribosome with hypusine-containing/non-modified eif5a and/or a peptidyl-trna analog |
|
21
|
124
|
5dgvC2 |
Complex of yeast 80s ribosome with hypusine-containing/non-modified eif5a and/or a peptidyl-trna analog |
|
56
|
244
|
5umdJ |
Structure of the plasmodium falciparum 80s ribosome bound to the antimalarial drug mefloquine |
|
47
|
233
|
5dgfL8 |
Complex of yeast 80s ribosome with hypusine-containing/non-modified eif5a and/or a peptidyl-trna analog |
|
13
|
124
|
5wyjSN |
Cryo-em structure of the 90s small subunit pre-ribosome (dhr1-depleted, enp1-tap, state 1) |
|
33
|
122
|
5wyk3G |
Cryo-em structure of the 90s small subunit pre-ribosome (mtr4-depleted, enp1-tap) |
|
37
|
122
|
5wyj3G |
Cryo-em structure of the 90s small subunit pre-ribosome (dhr1-depleted, enp1-tap, state 1) |
|
29
|
98
|
5umd6 |
Structure of the plasmodium falciparum 80s ribosome bound to the antimalarial drug mefloquine |
|
52
|
231
|
5tgml8 |
Crystal structure of the s.cerevisiae 80s ribosome in complex with the a-site bound aminoacyl-trna analog acca-pro |
|
23
|
124
|
5tgmC2 |
Crystal structure of the s.cerevisiae 80s ribosome in complex with the a-site bound aminoacyl-trna analog acca-pro |
|
29
|
97
|
5tgmO0 |
Crystal structure of the s.cerevisiae 80s ribosome in complex with the a-site bound aminoacyl-trna analog acca-pro |
|
49
|
233
|
5tgmL8 |
Crystal structure of the s.cerevisiae 80s ribosome in complex with the a-site bound aminoacyl-trna analog acca-pro |
|
19
|
97
|
5t62p |
Nmd3 is a structural mimic of eif5a, and activates the cpgtpase lsg1 during 60s ribosome biogenesis: 60s-nmd3-tif6-lsg1 complex |
|
22
|
97
|
5t6rp |
Nmd3 is a structural mimic of eif5a, and activates the cpgtpase lsg1 during 60s ribosome biogenesis: 60s-nmd3 complex |
|
8
|
122
|
5t2cAM |
Cryoem structure of the human ribosome at 3.6 angstrom resolution |
|
43
|
233
|
5t6rJ |
Nmd3 is a structural mimic of eif5a, and activates the cpgtpase lsg1 during 60s ribosome biogenesis: 60s-nmd3 complex |
|
39
|
233
|
5t62J |
Nmd3 is a structural mimic of eif5a, and activates the cpgtpase lsg1 during 60s ribosome biogenesis: 60s-nmd3-tif6-lsg1 complex |
|
22
|
98
|
5t2cW |
Cryoem structure of the human ribosome at 3.6 angstrom resolution |
|
36
|
241
|
5t2cn |
Cryoem structure of the human ribosome at 3.6 angstrom resolution |
|
52
|
233
|
5mc6AA |
Cryo-em structure of a native ribosome-ski2-ski3-ski8 complex from s. cerevisiae |
|
19
|
121
|
5mc6D |
Cryo-em structure of a native ribosome-ski2-ski3-ski8 complex from s. cerevisiae |
|
9
|
124
|
5m1jM2 |
Nonstop ribosomal complex bound with dom34 and hbs1 |
|
23
|
97
|
5mc6AY |
Cryo-em structure of a native ribosome-ski2-ski3-ski8 complex from s. cerevisiae |
|
35
|
233
|
5m1jG5 |
Nonstop ribosomal complex bound with dom34 and hbs1 |
|
24
|
97
|
5h4pc |
Structural snapshot of cytoplasmic pre-60s ribosomal particles bound with nmd3, lsg1, tif6 and reh1 |
|
24
|
97
|
5dgeO0 |
Coping with proline stalling: structural basis of hypusine-induced protein synthesis by the eukaryotic ribosome |
|
52
|
233
|
5dgeL8 |
Coping with proline stalling: structural basis of hypusine-induced protein synthesis by the eukaryotic ribosome |
|
41
|
233
|
5h4pG |
Structural snapshot of cytoplasmic pre-60s ribosomal particles bound with nmd3, lsg1, tif6 and reh1 |
|
24
|
124
|
5dgeC2 |
Coping with proline stalling: structural basis of hypusine-induced protein synthesis by the eukaryotic ribosome |
|
39
|
241
|
5lksLG |
Structure-function insights reveal the human ribosome as a cancer target for antibiotics |
