|
59
|
337
|
3ccjB |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation c2534u |
|
30
|
150
|
3cc7L |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation c2487u |
|
29
|
150
|
3ccvL |
Structure of anisomycin resistant 50s ribosomal subunit: 23s rrna mutation g2616a |
|
17
|
73
|
2vqfR |
Modified uridines with c5-methylene substituents at the first position of the trna anticodon stabilize u-g wobble pairing during decoding |
|
31
|
125
|
2vqeM |
Modified uridines with c5-methylene substituents at the first position of the trna anticodon stabilize u-g wobble pairing during decoding |
|
9
|
60
|
2vqeN |
Modified uridines with c5-methylene substituents at the first position of the trna anticodon stabilize u-g wobble pairing during decoding |
|
20
|
73
|
2vqeR |
Modified uridines with c5-methylene substituents at the first position of the trna anticodon stabilize u-g wobble pairing during decoding |
|
8
|
60
|
2vqfN |
Modified uridines with c5-methylene substituents at the first position of the trna anticodon stabilize u-g wobble pairing during decoding |
|
33
|
125
|
2vqfM |
Modified uridines with c5-methylene substituents at the first position of the trna anticodon stabilize u-g wobble pairing during decoding |
|
64
|
337
|
3cmeB |
The structure of ca and cca-phe-cap-bio bound to the large ribosomal subunit of haloarcula marismortui |
|
42
|
237
|
3cpwA |
The structure of the antibiotic linezolid bound to the large ribosomal subunit of haloarcula marismortui |
|
26
|
150
|
3cmeL |
The structure of ca and cca-phe-cap-bio bound to the large ribosomal subunit of haloarcula marismortui |
|
28
|
150
|
3cpwK |
The structure of the antibiotic linezolid bound to the large ribosomal subunit of haloarcula marismortui |
|
63
|
337
|
3cmaB |
The structure of cca and cca-phe-cap-bio bound to the large ribosomal subunit of haloarcula marismortui |
|
39
|
237
|
3cmeA |
The structure of ca and cca-phe-cap-bio bound to the large ribosomal subunit of haloarcula marismortui |
|
65
|
337
|
3cpwB |
The structure of the antibiotic linezolid bound to the large ribosomal subunit of haloarcula marismortui |
|
30
|
150
|
3cmaL |
The structure of cca and cca-phe-cap-bio bound to the large ribosomal subunit of haloarcula marismortui |
|
42
|
237
|
3cmaA |
The structure of cca and cca-phe-cap-bio bound to the large ribosomal subunit of haloarcula marismortui |
|
66
|
337
|
2qexB |
Negamycin binds to the wall of the nascent chain exit tunnel of the 50s ribosomal subunit |
|
39
|
237
|
2qexA |
Negamycin binds to the wall of the nascent chain exit tunnel of the 50s ribosomal subunit |
|
64
|
337
|
3g71B |
Co-crystal structure of bruceantin bound to the large ribosomal subunit |
|
26
|
150
|
3g71L |
Co-crystal structure of bruceantin bound to the large ribosomal subunit |
|
5
|
44
|
2jzwA |
How the hiv-1 nucleocapsid protein binds and destabilises the (-)primer binding site during reverse transcription |
|
59
|
337
|
3g4sB |
Co-crystal structure of tiamulin bound to the large ribosomal subunit |
|
24
|
120
|
2zm6M |
Crystal structure of the thermus thermophilus 30s ribosomal subunit |
|
16
|
68
|
2zm6R |
Crystal structure of the thermus thermophilus 30s ribosomal subunit |
|
7
|
60
|
2zm6N |
Crystal structure of the thermus thermophilus 30s ribosomal subunit |
|
23
|
59
|
2ql2B |
Crystal structure of the basic-helix-loop-helix domains of the heterodimer e47/neurod1 bound to dna |
|
25
|
150
|
3g6eL |
Co-crystal structure of homoharringtonine bound to the large ribosomal subunit |
|
31
|
150
|
3cxcK |
The structure of an enhanced oxazolidinone inhibitor bound to the 50s ribosomal subunit of h. marismortui |
|
66
|
337
|
3g6eB |
Co-crystal structure of homoharringtonine bound to the large ribosomal subunit |
|
68
|
337
|
3cxcB |
The structure of an enhanced oxazolidinone inhibitor bound to the 50s ribosomal subunit of h. marismortui |
|
25
|
59
|
2ql2A |
Crystal structure of the basic-helix-loop-helix domains of the heterodimer e47/neurod1 bound to dna |
|
21
|
150
|
3g4sL |
Co-crystal structure of tiamulin bound to the large ribosomal subunit |
|
40
|
237
|
3i56A |
Co-crystal structure of triacetyloleandomcyin bound to the large ribosomal subunit |
|
35
|
237
|
3i55A |
Co-crystal structure of mycalamide a bound to the large ribosomal subunit |
|
67
|
337
|
3i56B |
Co-crystal structure of triacetyloleandomcyin bound to the large ribosomal subunit |
|
27
|
150
|
3i55L |
Co-crystal structure of mycalamide a bound to the large ribosomal subunit |
|
65
|
337
|
3i55B |
Co-crystal structure of mycalamide a bound to the large ribosomal subunit |
|
29
|
150
|
3i56L |
Co-crystal structure of triacetyloleandomcyin bound to the large ribosomal subunit |
|
8
|
60
|
3otoN |
Crystal structure of the 30s ribosomal subunit from a ksga mutant of thermus thermophilus (hb8) |
|
16
|
73
|
3otoR |
Crystal structure of the 30s ribosomal subunit from a ksga mutant of thermus thermophilus (hb8) |
|
21
|
115
|
3otoM |
Crystal structure of the 30s ribosomal subunit from a ksga mutant of thermus thermophilus (hb8) |
|
22
|
253
|
3pioA |
Crystal structure of the synergistic antibiotic pair lankamycin and lankacidin in complex with the large ribosomal subunit |
|
3
|
45
|
2l4lA |
Structural insights into the ctar dna recognition by the hiv-1 nucleocapsid protein: role of sugar deoxyriboses in the binding polarity of nc |
|
21
|
253
|
3pipA |
Crystal structure of the synergistic antibiotic pair lankamycin and lankacidin in complex with the large ribosomal subunit |
|
42
|
271
|
3j7zC |
Structure of the e. coli 50s subunit with ermcl nascent chain |
|
8
|
53
|
3j80d |
Cryoem structure of 40s-eif1-eif1a preinitiation complex |
|
9
|
73
|
4yhhR |
Crystal structure of the 30s ribosomal subunit from thermus thermophilus in complex with tigecycline |
|
6
|
60
|
4yhhN |
Crystal structure of the 30s ribosomal subunit from thermus thermophilus in complex with tigecycline |
