64
|
225
|
6xdrG |
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 |
64
|
225
|
6xijG |
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 |
62
|
231
|
7jqm1b |
Crystal structure of the thermus thermophilus 70s ribosome in complex with bac7-002, mrna, and deacylated p-site trna at 3.05a resolution |
62
|
231
|
7jql1b |
Crystal structure of the thermus thermophilus 70s ribosome in complex with bac7-001, mrna, and deacylated p-site trna at 3.00a resolution |
35
|
206
|
6xirq |
Cryo-em structure of k63 ubiquitinated yeast translocating ribosome under oxidative stress |
58
|
221
|
6zmeSA |
Sars-cov-2 nsp1 bound to the human ccdc124-80s-eerf1 ribosome complex |
39
|
218
|
6lkqA |
The structural basis for inhibition of ribosomal translocation by viomycin |
63
|
216
|
6zojA |
Sars-cov-2-nsp1-40s complex, composite map |
58
|
220
|
6ydwAB |
55s mammalian mitochondrial ribosome with mtefg1 and two trnamet (ti-post) |
58
|
220
|
6ydpAB |
55s mammalian mitochondrial ribosome with mtefg1 and p site fmet-trnamet (post) |
34
|
218
|
6y69b |
Cryo-em structure of an escherichia coli 70s ribosome in complex with antibiotic tetracenomycinx |
56
|
225
|
6wnwG |
Active 70s ribosome without free 5s rrna and bound with a- and p- trna |
46
|
225
|
6wnvG |
70s ribosome without free 5s rrna and with a perturbed ptc |
54
|
225
|
6wdlG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-b1) |
63
|
225
|
6wdkG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-a2) |
64
|
225
|
6wdmG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-b2) |
55
|
225
|
6wdhG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure iv-b1) |
57
|
225
|
6wdjG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure v-a1) |
48
|
225
|
6wdiG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (non-cognate structure iv-b2) |
62
|
225
|
6wdcG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iv-b) |
49
|
225
|
6wdeG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure v-b) |
62
|
225
|
6wdfG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure vi-a) |
53
|
225
|
6wdgG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure vi-b) |
55
|
225
|
6wddG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure v-a) |
59
|
225
|
6wd8G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-a) |
55
|
225
|
6wdaG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-c) |
58
|
225
|
6wd5G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-c1) |
53
|
225
|
6wd6G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-c2) |
63
|
225
|
6wd7G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-d) |
59
|
225
|
6wdbG |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iv-a) |
50
|
225
|
6wd9G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure iii-b) |
59
|
225
|
6wd4G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-b2) |
58
|
225
|
6wd1G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure i-b) |
57
|
225
|
6wd2G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-a) |
61
|
225
|
6wd3G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure ii-b1) |
56
|
225
|
6wd0G |
Cryo-em of elongating ribosome with ef-tu*gtp elucidates trna proofreading (cognate structure i-a) |
52
|
220
|
6vwna |
70s ribosome bound to hiv frameshifting stem-loop (fss) and p-site trna (non-rotated conformation, structure ii) |
50
|
220
|
6vwma |
70s ribosome bound to hiv frameshifting stem-loop (fss) and p-site trna (non-rotated conformation, structure i) |
63
|
222
|
6vwla |
70s ribosome bound to hiv frameshifting stem-loop (fss) and p/e trna (rotated conformation) |
61
|
225
|
6rw5B |
Structure of human mitochondrial 28s ribosome in complex with mitochondrial if2 and if3 |
61
|
225
|
6rw4B |
Structure of human mitochondrial 28s ribosome in complex with mitochondrial if3 |
62
|
231
|
6ordQB |
Crystal structure of trna^ ala(ggc) u32-a38 bound to cognate 70s a site |
49
|
237
|
6opeQB |
Crystal structure of trna^ ala(ggc) u32-a38 bound to near-cognate 70s a site |
51
|
237
|
6oj2QB |
Crystal structure of trna^ ala(ggc) bound to the near-cognate 70s a-site |
59
|
237
|
6of6QB |
Crystal structure of trna^ ala(ggc) bound to cognate 70s a-site |
64
|
231
|
6of11b |
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 |
64
|
218
|
4v6zAB |
E. coli 70s-fmetval-trnaval-trnafmet complex in classic pre-translocation state (pre1b) |
51
|
219
|
6q8yP |
Cryo-em structure of the mrna translating and degrading yeast 80s ribosome-xrn1 nuclease complex |
65
|
234
|
6mpfB |
Structure of the thermus thermophilus 30s ribosomal subunit complexed with a 2-thiocytidine (s2c32) and inosine (i34) modified anticodon stem loop (asl) of escherichia coli transfer rna arginine 1 (trnaarg1) bound to an mrna with an cgc-codon in the a-site and paromomycin |
65
|
234
|
6mpiB |
Structure of the thermus thermophilus 30s ribosomal subunit complexed with a 2-thiocytidine (s2c32) and inosine (i34) modified anticodon stem loop (asl) of escherichia coli transfer rna arginine 1 (trnaarg1) bound to an mrna with an cgu-codon in the a-site and paromomycin |