|
71
|
524
|
6gxnw |
Cryo-em structure of an e. coli 70s ribosome in complex with rf3-gdpcp, rf1(gaq) and pint-trna (state iii) |
|
65
|
525
|
6gxow |
Cryo-em structure of a rotated e. coli 70s ribosome in complex with rf3-gdpcp, rf1(gaq) and p/e-trna (state iv) |
|
71
|
525
|
6gxpw |
Cryo-em structure of a rotated e. coli 70s ribosome in complex with rf3-gdpcp(rf3-only) |
|
71
|
525
|
6gxmw |
Cryo-em structure of an e. coli 70s ribosome in complex with rf3-gdpcp, rf1(gaq) and pint-trna (state ii) |
|
108
|
837
|
6gqvAX |
Cryo-em recosntruction of yeast 80s ribosome in complex with mrna, trna and eef2 (gmppcp) |
|
72
|
525
|
6gwtw |
Cryo-em structure of an e. coli 70s ribosome in complex with rf3-gdpcp, rf1(gaq) and pint-trna (state i) |
|
108
|
840
|
6gqbAZ |
Cryo-em reconstruction of yeast 80s ribosome in complex with mrna, trna and eef2 (gdp+alf4/sordarin) |
|
138
|
571
|
6gb2BC |
Unique features of mammalian mitochondrial translation initiation revealed by cryo-em. this file contains the 39s ribosomal subunit. |
|
181
|
909
|
5ylzC |
Cryo-em structure of the post-catalytic spliceosome from saccharomyces cerevisiae at 3.6 angstrom |
|
106
|
386
|
3u6kA |
Ef-tu (escherichia coli) in complex with nvp-ldk733 |
|
113
|
389
|
3u6bA |
Ef-tu (escherichia coli) in complex with nvp-ldi028 |
|
128
|
844
|
5o9zB |
Cryo-em structure of a pre-catalytic human spliceosome primed for activation (b complex) |
|
219
|
888
|
5z58C |
Cryo-em structure of a human activated spliceosome (early bact) at 4.9 angstrom. |
|
91
|
385
|
5mi9A |
Structure of the phosphomimetic mutant of the elongation factor ef-tu t62e |
|
104
|
386
|
5mi8A |
Structure of the phosphomimetic mutant of ef-tu t383e |
|
199
|
942
|
5y88C |
Cryo-em structure of the intron-lariat spliceosome ready for disassembly from s.cerevisiae at 3.5 angstrom |
|
111
|
386
|
5mi3A |
Structure of phosphorylated translation elongation factor ef-tu from e. coli |
|
118
|
392
|
5jbqA |
Ef-tu (escherichia coli) in complex with thiomuracin analog |
|
66
|
590
|
5izkA |
The crystal structure of human eefsec in complex with gdp |
|
105
|
594
|
5izlA |
The crystal structure of human eefsec in complex with gdpcp |
|
117
|
388
|
6mijA |
Crystal structure of ef-tu from acinetobacter baumannii in complex with mg2+ and gdp |
|
110
|
386
|
6ezeA |
The open conformation of e.coli elongation factor tu in complex with gdpnp. |
|
126
|
404
|
6bk7A |
1.83 angstrom resolution crystal structure of n-terminal fragment (residues 1-404) of elongation factor g from enterococcus faecalis |
|
122
|
405
|
6b8dA |
1.78 angstrom resolution crystal structure of n-terminal fragment (residues 1-405) of elongation factor g from haemophilus influenzae |
|
109
|
345
|
5yt0A |
Crystal structure of the complex of archaeal ribosomal stalk protein ap1 and archaeal translation initiation factor aif5b |
|
112
|
401
|
5vh6A |
2.6 angstrom resolution crystal structure of n-terminal fragment (residues 1-406) of elongation factor g from bacillus subtilis. |
|
73
|
426
|
4d61i |
Cryo-em structures of ribosomal 80s complexes with termination factors and cricket paralysis virus ires reveal the ires in the translocated state |
|
188
|
1120
|
5anbK |
Mechanism of eif6 release from the nascent 60s ribosomal subunit |
|
89
|
602
|
5a9xA |
Structure of gdp bound bipa |
|
112
|
601
|
5a9vA |
Structure of apo bipa |
|
117
|
604
|
5a9wA |
Structure of gdpcp bipa |
|
94
|
602
|
5a9yA |
Structure of ppgpp bipa |
|
118
|
493
|
4zkdA |
Crystal structure of the s. cerevisiae ski7 gtpase-like domain, bound to gdp and inorganic phosphate. |
|
91
|
392
|
4zv4A |
Structure of tse6 in complex with ef-tu |
|
145
|
601
|
4zciA |
Crystal structure of escherichia coli gtpase bipa/typa |
|
123
|
601
|
4zcmA |
Crystal structure of escherichia coli gtpase bipa/typa complexed with ppgpp |
|
194
|
675
|
4r71A |
Structure of the qbeta holoenzyme complex in the p1211 crystal form |
|
79
|
430
|
4crnP |
Cryo-em of a pretermination complex with erf1 and erf3 |
|
125
|
452
|
4c0sA |
Mammalian translation elongation factor eef1a2 |
|
98
|
354
|
4b47A |
Bacterial translation initiation factor if2 (1-363), complex with gdp at ph6.5 |
|
105
|
355
|
4b43A |
Bacterial translation initiation factor if2 (1-363), apo form, double mutant k86l h130a |
|
102
|
363
|
4b3xA |
Bacterial translation initiation factor if2 (1-363), apo form |
|
96
|
353
|
4b44A |
Bacterial translation initiation factor if2 (1-363), complex with gdp at ph8.0 |
|
98
|
354
|
4b48A |
Bacterial translation initiation factor if2 (1-363), complex with gtp |
|
98
|
469
|
4ac9A |
Crystal structure of translation elongation factor selb from methanococcus maripaludis in complex with gdp |
|
165
|
690
|
3zztA |
Crystal structure of staphylococcus aureus elongation factor g with a fusidic-acid-resistant mutation f88l |
|
184
|
690
|
3zz0A |
Crystal structure of ribosomal elongation factor (ef)-g from staphylococcus aureus with a fusidic acid hyper-sensitivity mutation m16i |
|
98
|
469
|
4acaA |
Crystal structure of translation elongation factor selb from methanococcus maripaludis, apo form |
|
161
|
690
|
3zzuA |
Crystal structure of staphylococcus aureus elongation factor g with mutations m16i and f88l |
|
97
|
469
|
4acbA |
Crystal structure of translation elongation factor selb from methanococcus maripaludis in complex with the gtp analogue gppnhp |
