6
|
56
|
5jteB0 |
Cryo-em structure of an ermbl-stalled ribosome in complex with a-, p-, and e-trna |
6
|
56
|
5lzd0 |
Structure of selb-sec-trnasec bound to the 70s ribosome in the gtpase activated state (ga) |
3
|
56
|
5e81J5 |
Structure of t. thermophilus 70s ribosome complex with mrna and trnalys in the a-site with wobble pair |
3
|
56
|
5ibbJ5 |
Structure of t. thermophilus 70s ribosome complex with mrna, trnafmet and cognate trnaval in the a-site |
7
|
56
|
5ju8B0 |
Cryo-em structure of an ermbl-stalled ribosome in complex with p-, and e-trna |
4
|
59
|
4wt8C6 |
Crystal structure of bactobolin a bound to 70s ribosome-trna complex |
5
|
59
|
4w2hB5 |
Crystal structure of the thermus thermophilus 70s ribosome in complex with pactamycin (co-crystallized), mrna and deacylated trna in the p site |
4
|
59
|
4v9mB5 |
70s ribosome translocation intermediate fa-4.2a containing elongation factor efg/fusidic acid/gdp, mrna, and trna bound in the pe*/e state. |
4
|
56
|
4wsmJ5 |
Complex of 70s ribosome with trna-leu and mrna with g-u mismatch in the first position in the a- and p-sites |
6
|
59
|
4w2gB5 |
Crystal structure of the thermus thermophilus 70s ribosome in complex with pactamycin (soaked), mrna and three deacylated trnas in the a, p and e sites |
2
|
59
|
4w29B5 |
70s ribosome translocation intermediate containing elongation factor efg/gdp/fusidic acid, mrna, and trnas trapped in the ap/ap pe/e chimeric hybrid state. |
7
|
55
|
4v8xB5 |
Structure of thermus thermophilus ribosome |
4
|
58
|
4wq1J5 |
Complex of 70s ribosome with trna-tyr and mrna with c-a mismatch in the first position in the a-site. |
8
|
56
|
4v9oA0 |
Control of ribosomal subunit rotation by elongation factor g |
7
|
56
|
4v9pA0 |
Control of ribosomal subunit rotation by elongation factor g |
5
|
59
|
4v8qA5 |
Complex of smpb, a tmrna fragment and ef-tu-gdp-kirromycin with the 70s ribosome |
3
|
59
|
4v90B5 |
Thermus thermophilus ribosome |
3
|
59
|
4v9iB5 |
Crystal structure of thermus thermophilus 70s in complex with trnas and mrna containing a pseudouridine in a stop codon |
3
|
59
|
4v7lB5 |
The structures of viomycin bound to the 70s ribosome. |
6
|
55
|
4v8nB5 |
The crystal structure of agmatidine trna-ile2 bound to the 70s ribosome in the a and p site. |
5
|
59
|
4v8bB5 |
Crystal structure analysis of ribosomal decoding (near-cognate trna-leu complex). |
5
|
56
|
4v7uB0 |
Crystal structure of the e. coli ribosome bound to erythromycin. |
6
|
56
|
4v7tB0 |
Crystal structure of the e. coli ribosome bound to chloramphenicol. |
5
|
55
|
4v7jA5 |
Structure of rele nuclease bound to the 70s ribosome (precleavage state) |
3
|
59
|
4v7mB5 |
The structures of capreomycin bound to the 70s ribosome. |
5
|
59
|
4v87A5 |
Crystal structure analysis of ribosomal decoding. |
3
|
59
|
4v8aA5 |
The structure of thermorubin in complex with the 70s ribosome from thermus thermophilus. |
3
|
52
|
4v7pB2 |
Recognition of the amber stop codon by release factor rf1. |
5
|
56
|
4v7sB0 |
Crystal structure of the e. coli ribosome bound to telithromycin. |
5
|
59
|
4v8fA5 |
Crystal structure analysis of ribosomal decoding (near-cognate trna-ttyr complex with paromomycin). |
5
|
59
|
4v8eA5 |
Crystal structure analysis of ribosomal decoding (near-cognate trna-tyr complex). |
6
|
56
|
4v79B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in intermediate post-translocation state (post3b) |
7
|
56
|
4v7cB3 |
Structure of the ribosome with elongation factor g trapped in the pre-translocation state (pre-translocation 70s*trna structure) |
5
|
56
|
4v77B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in intermediate post-translocation state (post2b) |
3
|
56
|
4v6pB3 |
Structural characterization of mrna-trna translocation intermediates (class 4b of the six classes) |
8
|
56
|
4v74B0 |
70s-fmetval-trnaval-trnafmet complex in hybrid pre-translocation state (pre5b) |
7
|
56
|
4v70B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in intermediate pre-translocation state (pre3) |
7
|
56
|
4v7iA0 |
Ribosome-secy complex. |
8
|
56
|
4v7bB0 |
Visualization of two trnas trapped in transit during ef-g-mediated translocation |
7
|
56
|
4v78B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in intermediate post-translocation state (post3a) |
5
|
56
|
4v73B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in hybrid pre-translocation state (pre5a) |
5
|
56
|
4v72B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in hybrid pre-translocation state (pre4) |
6
|
56
|
4v76B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in intermediate post-translocation state (post2a) |
6
|
56
|
4v7dA4 |
Structure of the ribosome with elongation factor g trapped in the pre-translocation state (pre-translocation 70s*trna*ef-g structure) |
4
|
56
|
4v75B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in classic post-translocation state (post1) |
7
|
56
|
4v6zB0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in classic pre-translocation state (pre1b) |
3
|
56
|
4v71B0 |
E. coli 70s-fmetval-trnaval-trnafmet complex in intermediate pre-translocation state (pre2) |
5
|
55
|
4v7kA5 |
Structure of rele nuclease bound to the 70s ribosome (postcleavage state) |
7
|
56
|
4v7aB0 |
E. coli 70s-fmetval-trnaval post-translocation complex (post4) |
4
|
56
|
4v6rB3 |
Structural characterization of mrna-trna translocation intermediates (class 6 of the six classes) |