|
42
|
232
|
6elzW |
State e (tap-flag-ytm1 e80a) - visualizing the assembly pathway of nucleolar pre-60s ribosmes |
|
7
|
62
|
3cclG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation u2535c. density for anisomycin is visible but not included in model. |
|
13
|
126
|
2qa4G |
A more complete structure of the the l7/l12 stalk of the haloarcula marismortui 50s large ribosomal subunit |
|
9
|
62
|
3cceG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation u2535a |
|
8
|
62
|
3ccqG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation a2488u |
|
8
|
62
|
3ccsG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation g2482a |
|
9
|
62
|
3ccuG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation g2482c |
|
10
|
62
|
3cc7G |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation c2487u |
|
8
|
62
|
3ccvG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation g2616a |
|
9
|
62
|
3ccmG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation g2611u |
|
7
|
62
|
3ccrG |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation a2488c. density for anisomycin is visible but not included in the model. |
|
10
|
130
|
6hrmH |
E. coli 70s d2d8 stapled ribosome |
|
31
|
294
|
6hhqp0 |
Crystal structure of compound c45 bound to the yeast 80s ribosome |
|
12
|
130
|
6q97H |
Structure of tmrna smpb bound in a site of e. coli 70s ribosome |
|
26
|
168
|
6nu2I |
Structural insights into unique features of the human mitochondrial ribosome recycling |
|
10
|
62
|
3cpwG |
The structure of the antibiotic linezolid bound to the large ribosomal subunit of haloarcula marismortui |
|
7
|
62
|
3cmeG |
The structure of ca and cca-phe-cap-bio bound to the large ribosomal subunit of haloarcula marismortui |
|
12
|
62
|
2qexG |
Negamycin binds to the wall of the nascent chain exit tunnel of the 50s ribosomal subunit |
|
7
|
62
|
3g71G |
Co-crystal structure of bruceantin bound to the large ribosomal subunit |
|
11
|
62
|
3cxcG |
The structure of an enhanced oxazolidinone inhibitor bound to the 50s ribosomal subunit of h. marismortui |
|
7
|
62
|
3g6eG |
Co-crystal structure of homoharringtonine bound to the large ribosomal subunit |
|
7
|
62
|
3g4sG |
Co-crystal structure of tiamulin bound to the large ribosomal subunit |
|
8
|
62
|
3i56G |
Co-crystal structure of triacetyloleandomcyin bound to the large ribosomal subunit |
|
8
|
62
|
3i55G |
Co-crystal structure of mycalamide a bound to the large ribosomal subunit |
|
29
|
219
|
4u4np0 |
Crystal structure of edeine bound to the yeast 80s ribosome |
|
28
|
219
|
4u3up0 |
Crystal structure of cycloheximide bound to the yeast 80s ribosome |
|
29
|
219
|
4u3np0 |
Crystal structure of cca trinucleotide bound to the yeast 80s ribosome |
|
27
|
219
|
4u3mp0 |
Crystal structure of anisomycin bound to the yeast 80s ribosome |
|
33
|
168
|
3j7yI |
Structure of the large ribosomal subunit from human mitochondria |
|
7
|
197
|
3j77P0 |
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class ii - rotated ribosome with 1 trna) |
|
18
|
148
|
3j7z5 |
Structure of the e. coli 50s subunit with ermcl nascent chain |
|
11
|
130
|
4wqyAK |
Crystal structure of the thermus thermophilus 70s ribosome in complex with elongation factor g in the post-translocational state (without fusitic acid) |
|
6
|
201
|
3j78P0 |
Structures of yeast 80s ribosome-trna complexes in the rotated and non-rotated conformations (class i - non-rotated ribosome with 2 trnas) |
|
17
|
130
|
4wqfAK |
Crystal structure of the thermus thermophilus 70s ribosome in complex with elongation factor g and fusidic acid in the post-translocational state |
|
12
|
130
|
4wpoAK |
Crystal structure of the thermus thermophilus 70s ribosome in complex with elongation factor g in the pre-translocational state |
|
14
|
130
|
4wquAK |
Crystal structure of the thermus thermophilus 70s ribosome in complex with elongation factor g trapped by the antibiotic dityromycin |
|
22
|
168
|
5aj4BJ |
Structure of the 55s mammalian mitoribosome. |
|
21
|
131
|
5afi5 |
2.9a structure of e. coli ribosome-ef-tu complex by cs-corrected cryo-em |
|
35
|
135
|
4ybbDI |
High-resolution structure of the escherichia coli ribosome |
|
21
|
131
|
3j9y5 |
Cryo-em structure of tetracycline resistance protein tetm bound to a translating e.coli ribosome |
|
34
|
198
|
3jahs |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uag stop codon |
|
34
|
198
|
3jags |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uaa stop codon |
|
33
|
198
|
3jais |
Structure of a mammalian ribosomal termination complex with abce1, erf1(aaq), and the uga stop codon |
|
10
|
117
|
3jcje |
Structures of ribosome-bound initiation factor 2 reveal the mechanism of subunit association |
|
30
|
294
|
5dgvp0 |
Complex of yeast 80s ribosome with hypusine-containing/non-modified eif5a and/or a peptidyl-trna analog |
|
15
|
131
|
5u9g10 |
3.2 a cryo-em arfa-rf2 ribosome rescue complex (structure i) |
|
18
|
131
|
5u9f10 |
3.2 a cryo-em arfa-rf2 ribosome rescue complex (structure ii) |
|
21
|
135
|
5h5uI |
Mechanistic insights into the alternative translation termination by arfa and rf2 |
|
24
|
219
|
5dgep0 |
Coping with proline stalling: structural basis of hypusine-induced protein synthesis by the eukaryotic ribosome |
|
18
|
131
|
5uyl10 |
70s ribosome bound with cognate ternary complex base-paired to a site codon (structure ii) |
