24
|
133
|
7aqcI |
Structure of the bacterial rqc complex (decoding state) |
17
|
140
|
7a5hJ |
Structure of the split human mitoribosomal large subunit with rescue factors mtrf-r and mtres1 |
23
|
140
|
7a5jJ |
Structure of the split human mitoribosomal large subunit with p-and e-site mt-trnas |
23
|
147
|
6ywxg |
The structure of the mitoribosome from neurospora crassa with trna bound to the e-site |
25
|
132
|
7as8K |
Bacillus subtilis ribosome quality control complex state b. ribosomal 50s subunit with p-trna, rqch, and rqcp/yabo |
27
|
147
|
6ywsg |
The structure of the large subunit of the mitoribosome from neurospora crassa |
29
|
134
|
6xzaI2 |
E. coli 70s ribosome in complex with dirithromycin, and deacylated trna(imet) (focused classification). |
14
|
140
|
7a5iJ3 |
Structure of the human mitoribosome with a- p-and e-site mt-trnas |
41
|
175
|
6zm5J |
Human mitochondrial ribosome in complex with oxa1l, mrna, a/a trna, p/p trna and nascent polypeptide |
39
|
172
|
6zsaXJ |
Human mitochondrial ribosome bound to mrna, a-site trna and p-site trna |
20
|
141
|
7jszi |
Arfb rescue of a 70s ribosome stalled on truncated mrna with a partial a-site codon (+2-iv) |
27
|
141
|
7jt3i |
Rotated 70s ribosome stalled on long mrna with arfb-1 and arfb-2 bound in the a site (+9-iv) |
65
|
278
|
7aoiAK |
Trypanosoma brucei mitochondrial ribosome large subunit assembly intermediate |
25
|
132
|
7as9K |
Bacillus subtilis ribosome-associated quality control complex state a. ribosomal 50s subunit with peptidyl trna in the a/p position and rqch. |
21
|
147
|
6ywvg |
The structure of the atp25 bound assembly intermediate of the mitoribosome from neurospora crassa |
29
|
134
|
6xzbI2 |
E. coli 70s ribosome in complex with dirithromycin, fmet-phe-trna(phe) and deacylated trna(imet) (focused classification). |
6
|
141
|
6x9qY |
Cryo-em structure of an escherichia coli coupled transcription-translation complex b3 (ttc-b3) containing an mrna with a 27 nt long spacer, transcription factors nusa and nusg, and fmet-trnas at p-site and e-site |
6
|
141
|
6xdqY |
Cryo-em structure of an escherichia coli coupled transcription-translation complex b3 (ttc-b3) containing an mrna with a 30 nt long spacer, transcription factors nusa and nusg, and fmet-trnas at p-site and e-site |
6
|
141
|
6xgfY |
Escherichia coli transcription-translation complex b (ttc-b) containing an 30 nt long mrna spacer, nusg, and fmet-trnas at e-site and p-site |
6
|
141
|
6xdrY |
Escherichia coli transcription-translation complex b (ttc-b) containing an 27 nt long mrna spacer, nusg, and fmet-trnas at e-site and p-site |
6
|
141
|
6xiiY |
Escherichia coli transcription-translation complex b (ttc-b) containing an 24 nt long mrna spacer, nusg, and fmet-trnas at e-site and p-site |
6
|
141
|
6xijY |
Escherichia coli transcription-translation complex a (ttc-a) containing an 24 nt long mrna spacer, nusg, and fmet-trnas at e-site and p-site |
23
|
157
|
6zmeLt |
Sars-cov-2 nsp1 bound to the human ccdc124-80s-eerf1 ribosome complex |
21
|
158
|
6z1pAn |
Structure of the mitochondrial ribosome from tetrahymena thermophila |
13
|
141
|
6lkqZ |
The structural basis for inhibition of ribosomal translocation by viomycin |
36
|
172
|
6i9rJ |
Large subunit of the human mitochondrial ribosome in complex with virginiamycin m and quinupristin |
5
|
71
|
7bv8J |
Mature 50s ribosomal subunit from rrmj knock out e.coli strain |
46
|
176
|
6ydwBK |
55s mammalian mitochondrial ribosome with mtefg1 and two trnamet (ti-post) |
46
|
176
|
6ydpBK |
55s mammalian mitochondrial ribosome with mtefg1 and p site fmet-trnamet (post) |
29
|
134
|
6xz7I |
E. coli 50s ribosomal subunit in complex with dirithromycin, fmet-phe-trna(phe) and deacylated trna(imet). |
26
|
141
|
6wnwi |
Active 70s ribosome without free 5s rrna and bound with a- and p- trna |
22
|
141
|
6wnvi |
70s ribosome without free 5s rrna and with a perturbed ptc |
18
|
141
|
6wnti |
50s ribosomal subunit without free 5s rrna and perturbed ptc |
21
|
141
|
6wdmi |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-b2) |
19
|
141
|
6wdki |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-a2) |
23
|
141
|
6wdli |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-b1) |
21
|
141
|
6wdgi |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure vi-b) |
27
|
141
|
6wdhi |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure iv-b1) |
16
|
71
|
6wdii |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure iv-b2) |
20
|
141
|
6wdji |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-a1) |
22
|
141
|
6wdei |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure v-b) |
22
|
141
|
6wddi |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure v-a) |
24
|
141
|
6wdci |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iv-b) |
21
|
141
|
6wdbi |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iv-a) |
19
|
141
|
6wdfi |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure vi-a) |
25
|
141
|
6wd7i |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-d) |
19
|
141
|
6wd9i |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-b) |
27
|
141
|
6wd4i |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-b2) |
21
|
141
|
6wdai |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-c) |
25
|
141
|
6wd6i |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-c2) |