|
37
|
138
|
4dr1H |
Crystal structure of the apo 30s ribosomal subunit from thermus thermophilus (hb8) |
|
37
|
138
|
4dr3H |
Crystal structure of the thermus thermophilus (hb8) 30s ribosomal subunit with streptomycin bound |
|
35
|
138
|
4dr2H |
Crystal structure of the thermus thermophilus (hb8) 30s ribosomal subunit with multiple copies of paromomycin molecules bound |
|
29
|
138
|
4dv0H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, u20g |
|
32
|
138
|
4duyH |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, u13c |
|
34
|
138
|
4dv5H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, a914g, bound with streptomycin |
|
36
|
138
|
4dv7H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, a915g, bound with streptomycin |
|
30
|
138
|
4dv1H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, u20g, bound with streptomycin |
|
37
|
138
|
4dv4H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, a914g |
|
39
|
138
|
4duzH |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, u13c, bound with streptomycin |
|
35
|
138
|
4dv6H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, a915g |
|
34
|
138
|
4dv2H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, c912a |
|
34
|
138
|
4dv3H |
Crystal structure of the thermus thermophilus 30s ribosomal subunit with a 16s rrna mutation, c912a, bound with streptomycin |
|
28
|
129
|
6i7ob |
The structure of a di-ribosome (disome) as a unit for rqc and ngd quality control pathways recognition. |
|
25
|
129
|
5lzfh |
Structure of the 70s ribosome with fmetsec-trnasec in the hybrid pre-translocation state (h) |
|
25
|
129
|
5lzch |
Structure of selb-sec-trnasec bound to the 70s ribosome in the codon reading state (cr) |
|
28
|
129
|
5mdwm |
Structure of arfa(a18t) and rf2 bound to the 70s ribosome (pre-accommodated state) |
|
24
|
129
|
5lzwWW |
Structure of the mammalian rescue complex with pelota and hbs1l assembled on a truncated mrna. |
|
26
|
129
|
5lzbh |
Structure of selb-sec-trnasec bound to the 70s ribosome in the initial binding state (ib) |
|
34
|
129
|
5tgaD2 |
Crystal structure of the s.cerevisiae 80s ribosome in complex with the a-site bound aminoacyl-trna analog acca-pro |
|
24
|
129
|
5lzvWW |
Structure of the mammalian ribosomal termination complex with accommodated erf1(aaq) and abce1. |
|
29
|
129
|
5mdym |
Structure of arfa and ttrf2 bound to the 70s ribosome (pre-accommodated state) |
|
27
|
129
|
5lzxWW |
Structure of the mammalian rescue complex with pelota and hbs1l assembled on a uga stop codon. |
|
22
|
129
|
5mgph |
Structural basis for arfa-rf2 mediated translation termination on stop-codon lacking mrnas |
|
27
|
129
|
5lzzWW |
Structure of the mammalian rescue complex with pelota and hbs1l (combined) |
|
24
|
129
|
5lzuWW |
Structure of the mammalian ribosomal termination complex with accommodated erf1 |
|
27
|
129
|
5lzeh |
Structure of the 70s ribosome with sec-trnasec in the classical pre-translocation state (c) |
|
28
|
129
|
5mdzm |
Structure of the 70s ribosome (empty a site) |
|
27
|
129
|
5lzyWW |
Structure of the mammalian rescue complex with pelota and hbs1l assembled on a polyadenylated mrna. |
|
24
|
129
|
5lztWW |
Structure of the mammalian ribosomal termination complex with erf1 and erf3. |
|
28
|
129
|
5mdvm |
Structure of arfa and rf2 bound to the 70s ribosome (accommodated state) |
|
23
|
129
|
5lzdh |
Structure of selb-sec-trnasec bound to the 70s ribosome in the gtpase activated state (ga) |
|
31
|
129
|
5lybD2 |
Crystal structure of the s.cerevisiae 80s ribosome in complex with the a-site bound aminoacyl-trna analog accpmn |
|
27
|
138
|
5lmsH |
Structure of bacterial 30s-if1-if3-mrna-trna translation pre-initiation complex(state-2c) |
|
33
|
138
|
5lmnH |
Structure of bacterial 30s-if1-if3-mrna translation pre-initiation complex (state-1a) |
|
18
|
129
|
5juoTB |
Saccharomyces cerevisiae 80s ribosome bound with elongation factor eef2-gdp-sordarin and taura syndrome virus ires, structure i (fully rotated 40s subunit) |
|
26
|
138
|
5lmuH |
Structure of bacterial 30s-if3-mrna-trna translation pre-initiation complex, closed form (state-4) |
|
27
|
138
|
5lmpH |
Structure of bacterial 30s-if1-if3-mrna translation pre-initiation complex (state-1c) |
|
24
|
129
|
5jutTB |
Saccharomyces cerevisiae 80s ribosome bound with elongation factor eef2-gdp-sordarin and taura syndrome virus ires, structure iv (almost non-rotated 40s subunit) |
|
28
|
129
|
5lzah |
Structure of the 70s ribosome with secis-mrna and p-site trna (initial complex, ic) |
|
31
|
138
|
5lmrH |
Structure of bacterial 30s-if1-if3-mrna-trna translation pre-initiation complex(state-2b) |
|
24
|
129
|
5kpw12 |
Structure of rela bound to ribosome in presence of a/r trna (structure iii) |
|
35
|
137
|
5j3cQH |
Thermus thermophilus 70s termination complex containing e. coli rf1 |
|
29
|
138
|
5lmtH |
Structure of bacterial 30s-if1-if3-mrna-trna translation pre-initiation complex(state-3) |
|
25
|
138
|
5lmoH |
Structure of bacterial 30s-if1-if3-mrna translation pre-initiation complex (state-1b) |
|
21
|
129
|
5jusTB |
Saccharomyces cerevisiae 80s ribosome bound with elongation factor eef2-gdp-sordarin and taura syndrome virus ires, structure iii (mid-rotated 40s subunit) |
|
26
|
138
|
5lmvH |
Structure of bacterial 30s-if1-if2-if3-mrna-trna translation pre-initiation complex(state-iii) |
|
28
|
138
|
5lmqH |
Structure of bacterial 30s-if1-if3-mrna-trna translation pre-initiation complex, open form (state-2a) |
|
18
|
129
|
5juuTB |
Saccharomyces cerevisiae 80s ribosome bound with elongation factor eef2-gdp-sordarin and taura syndrome virus ires, structure v (least rotated 40s subunit) |
|
22
|
129
|
5jb3I |
Cryo-em structure of a full archaeal ribosomal translation initiation complex in the p-remote conformation |
