18
|
118
|
6ydwB3 |
55s mammalian mitochondrial ribosome with mtefg1 and two trnamet (ti-post) |
71
|
225
|
6y6xLF |
Tetracenomycin x bound to the human ribosome |
14
|
58
|
6y69Z |
Cryo-em structure of an escherichia coli 70s ribosome in complex with antibiotic tetracenomycinx |
21
|
118
|
6ydpB3 |
55s mammalian mitochondrial ribosome with mtefg1 and p site fmet-trnamet (post) |
18
|
58
|
6xz7Z |
E. coli 50s ribosomal subunit in complex with dirithromycin, fmet-phe-trna(phe) and deacylated trna(imet). |
7
|
56
|
6wrsM |
Structure of the 50s subunit of the ribosome from methicillin resistant staphylococcus aureus in complex with the antibiotic, tedizolid |
13
|
56
|
6wruM |
Structure of the 50s subunit of the ribosome from methicillin resistant staphylococcus aureus in complex with an isomer of the tedizolid |
12
|
56
|
6wqnM |
Structure of the 50s subunit of the ribosome from methicillin resistant staphylococcus aureus in complex with the antibiotic, contezolid |
12
|
56
|
6wqqM |
Structure of the 50s subunit of the ribosome from methicillin resistant staphylococcus aureus in complex with the antibiotic, radezolid |
17
|
58
|
6wnwz |
Active 70s ribosome without free 5s rrna and bound with a- and p- trna |
11
|
58
|
6wntz |
50s ribosomal subunit without free 5s rrna and perturbed ptc |
17
|
58
|
6wnvz |
70s ribosome without free 5s rrna and with a perturbed ptc |
11
|
58
|
6wdmz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-b2) |
13
|
58
|
6wdlz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-b1) |
9
|
58
|
6wdkz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-a2) |
11
|
58
|
6wdhz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure iv-b1) |
12
|
58
|
6wdjz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-a1) |
12
|
58
|
6wdiz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure iv-b2) |
12
|
58
|
6wdgz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure vi-b) |
13
|
58
|
6wddz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure v-a) |
12
|
58
|
6wdcz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iv-b) |
10
|
58
|
6wdfz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure vi-a) |
9
|
58
|
6wdez |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure v-b) |
12
|
58
|
6wd6z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-c2) |
11
|
58
|
6wd8z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-a) |
13
|
58
|
6wd7z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-d) |
13
|
58
|
6wd5z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-c1) |
11
|
58
|
6wdbz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iv-a) |
9
|
58
|
6wdaz |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-c) |
12
|
58
|
6wd9z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-b) |
9
|
58
|
6wd3z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-b1) |
12
|
58
|
6wd2z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-a) |
9
|
58
|
6wd4z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-b2) |
13
|
58
|
6wd0z |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure i-a) |
12
|
58
|
6vwnX |
70s ribosome bound to hiv frameshifting stem-loop (fss) and p-site trna (non-rotated conformation, structure ii) |
13
|
58
|
6vwmX |
70s ribosome bound to hiv frameshifting stem-loop (fss) and p-site trna (non-rotated conformation, structure i) |
12
|
58
|
6vwlX |
70s ribosome bound to hiv frameshifting stem-loop (fss) and p/e trna (rotated conformation) |
18
|
59
|
6ordR3 |
Crystal structure of trna^ ala(ggc) u32-a38 bound to cognate 70s a site |
13
|
59
|
6oj2R3 |
Crystal structure of trna^ ala(ggc) bound to the near-cognate 70s a-site |
16
|
59
|
6opeR3 |
Crystal structure of trna^ ala(ggc) u32-a38 bound to near-cognate 70s a site |
16
|
59
|
6of6R3 |
Crystal structure of trna^ ala(ggc) bound to cognate 70s a-site |
14
|
58
|
6lkqh |
The structural basis for inhibition of ribosomal translocation by viomycin |
17
|
58
|
5j88C0 |
Structure of the e coli 70s ribosome with the u1060a mutation in 16s rrna |
61
|
225
|
6r6gF |
Structure of xbp1u-paused ribosome nascent chain complex with srp. |
70
|
225
|
6r7qF |
Structure of xbp1u-paused ribosome nascent chain complex with sec61. |
66
|
225
|
6r6pF |
Structure of xbp1u-paused ribosome nascent chain complex (rotated state) |
23
|
118
|
6gawB3 |
Unique features of mammalian mitochondrial translation initiation revealed by cryo-em. this file contains the complete 55s ribosome. |
72
|
222
|
6q8yBO |
Cryo-em structure of the mrna translating and degrading yeast 80s ribosome-xrn1 nuclease complex |
16
|
59
|
6of113 |
Crystal structure of the thermus thermophilus 70s ribosome in complex with dirithromycin and bound to mrna and a-, p-, and e-site trnas at 2.80a resolution |
14
|
58
|
6gslH5 |
Structure of t. thermophilus 70s ribosome complex with mrna, trnafmet and cognate trnaarg in the a-site |