#IFECompound(s)RNA source organismTitleMethodResolutionDate
14V4Q|1|CA (rep)16S ribosomal RNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli at 3.5 A resolution.X-RAY DIFFRACTION3.462014-07-09
24V4H|1|CA16S RIBOSOMAL RNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with the antibiotic kasugamyin at 3.5A resolution.X-RAY DIFFRACTION3.462014-07-09
34V52|1|CA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with neomycin.X-RAY DIFFRACTION3.212014-07-09
44V52|1|AA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with neomycin.X-RAY DIFFRACTION3.212014-07-09
54V54|1|CA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with ribosome recycling factor (RRF).X-RAY DIFFRACTION3.32014-07-09
64A2I|1|A16S RIBOSOMAL RNAEscherichia coliCryo-electron Microscopy Structure of the 30S Subunit in Complex with the YjeQ Biogenesis FactorELECTRON MICROSCOPY16.52011-11-02
74V4Q|1|AA16S ribosomal RNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli at 3.5 A resolution.X-RAY DIFFRACTION3.462014-07-09
84V64|1|CA16S ribosomal RNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with hygromycin B.X-RAY DIFFRACTION3.52014-07-09
94V6C|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.192014-07-09
104V54|1|AA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with ribosome recycling factor (RRF).X-RAY DIFFRACTION3.32014-07-09
114V64|1|AA16S ribosomal RNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with hygromycin B.X-RAY DIFFRACTION3.52014-07-09
124V53|1|CA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin.X-RAY DIFFRACTION3.542014-07-09
134V4H|1|AA16S RIBOSOMAL RNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with the antibiotic kasugamyin at 3.5A resolution.X-RAY DIFFRACTION3.462014-07-09
144V5Y|1|CA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with paromomycin and ribosome recycling factor (RRF).X-RAY DIFFRACTION4.452014-07-09
154V53|1|AA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin.X-RAY DIFFRACTION3.542014-07-09
164V7V|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to clindamycin.X-RAY DIFFRACTION3.292014-07-09
174V7S|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to telithromycin.X-RAY DIFFRACTION3.252014-07-09
184V55|1|AA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin and ribosome recycling factor (RRF).X-RAY DIFFRACTION42014-07-09
194ADV|1|A16S RIBOSOMAL RNAEscherichia coliStructure of the E. coli methyltransferase KsgA bound to the E. coli 30S ribosomal subunitELECTRON MICROSCOPY13.52012-02-15
204V5Y|1|AA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with paromomycin and ribosome recycling factor (RRF).X-RAY DIFFRACTION4.452014-07-09
214V57|1|CA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin and neomycin.X-RAY DIFFRACTION3.52014-07-09
224V55|1|CA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin and ribosome recycling factor (RRF).X-RAY DIFFRACTION42014-07-09
234WWW|1|QA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to CEM-101X-RAY DIFFRACTION3.12014-12-24
244V57|1|AA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin and neomycin.X-RAY DIFFRACTION3.52014-07-09
254V7T|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to chloramphenicol.X-RAY DIFFRACTION3.192014-07-09
264V6D|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.812014-07-09
274V56|1|CA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin.X-RAY DIFFRACTION3.932014-07-09
284V9P|1|FA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
294YBB|1|AA16S rRNAEscherichia coliHigh-resolution structure of the Escherichia coli ribosomeX-RAY DIFFRACTION2.12015-03-18
304V9O|1|FA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
314U1U|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to quinupristin.X-RAY DIFFRACTION2.952014-07-30
324V50|1|AA16S ribosomal RNAEscherichia coliCrystal Structure of Ribosome with messenger RNA and the Anticodon stem-loop of P-site tRNA.X-RAY DIFFRACTION3.222014-07-09
334V9O|1|BA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
345AFI|1|a16S ribosomal RNAEscherichia coli2.9A Structure of E. coli ribosome-EF-TU complex by cs-corrected cryo-EMELECTRON MICROSCOPY2.92015-03-11
354V6E|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.712014-07-09
364U20|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to flopristin.X-RAY DIFFRACTION2.92014-07-30
374V50|1|CA16S ribosomal RNAEscherichia coliCrystal Structure of Ribosome with messenger RNA and the Anticodon stem-loop of P-site tRNA.X-RAY DIFFRACTION3.222014-07-09
384V9P|1|BA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
394V56|1|AA16S rRNAEscherichia coliCrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin.X-RAY DIFFRACTION3.932014-07-09
404U1U|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to quinupristin.X-RAY DIFFRACTION2.952014-07-30
414V6C|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.192014-07-09
424U26|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to dalfopristin and quinupristin.X-RAY DIFFRACTION2.82014-07-30
434U24|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to dalfopristin.X-RAY DIFFRACTION2.92014-07-30
444YBB|1|BA16S rRNAEscherichia coliHigh-resolution structure of the Escherichia coli ribosomeX-RAY DIFFRACTION2.12015-03-18
454U20|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to flopristin.X-RAY DIFFRACTION2.92014-07-30
463J9Y|1|a16S ribosomal RNAEscherichia coliCryo-EM structure of tetracycline resistance protein TetM bound to a translating E.coli ribosomeELECTRON MICROSCOPY3.92015-04-15
474V6E|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.712014-07-09
484V7U|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to erythromycin.X-RAY DIFFRACTION3.12014-07-09
494U27|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to flopristin and linopristin.X-RAY DIFFRACTION2.82014-07-30
504V7B|1|AA16S ribosomal RNAEscherichia coliVisualization of two tRNAs trapped in transit during EF-G-mediated translocationELECTRON MICROSCOPY6.82014-07-09
514V6D|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.812014-07-09
524WF1|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to negamycin.X-RAY DIFFRACTION3.092014-11-05
534V9P|1|HA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
544U25|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to virginiamycin M1.X-RAY DIFFRACTION2.92014-07-30
554V7T|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to chloramphenicol.X-RAY DIFFRACTION3.192014-07-09
564V9O|1|DA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
574U1V|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to linopristin.X-RAY DIFFRACTION32014-07-30
584WOI|1|DA16S ribosomal RNA, Messenger RNAEscherichia coli4,5-linked aminoglycoside antibiotics regulate the bacterial ribosome by targeting dynamic conformational processes within intersubunit bridge B2X-RAY DIFFRACTION32015-08-05
594V6V|1|AA16S ribosomal RNAEscherichia coliTetracycline resistance protein Tet(O) bound to the ribosomeELECTRON MICROSCOPY9.82014-07-09
604V9P|1|DA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
614V7S|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to telithromycin.X-RAY DIFFRACTION3.252014-07-09
624WWW|1|XA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to CEM-101X-RAY DIFFRACTION3.12014-12-24
634V9D|1|BA16S rRNA, messenger RNAEscherichia coliStructures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-RAY DIFFRACTION32014-07-09
644WF1|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to negamycin.X-RAY DIFFRACTION3.092014-11-05
654U27|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to flopristin and linopristin.X-RAY DIFFRACTION2.82014-07-30
664U1V|1|AA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to linopristin.X-RAY DIFFRACTION32014-07-30
674V9D|1|AA16S rRNA, messenger RNAEscherichia coliStructures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-RAY DIFFRACTION32014-07-09
684V69|1|AA16S rRNAEscherichia coliTernary complex-bound E.coli 70S ribosome.ELECTRON MICROSCOPY6.72014-07-09
694V5H|1|AA16S RIBOSOMAL RNAEscherichia coliE.Coli 70s Ribosome Stalled During Translation Of Tnac Leader Peptide.ELECTRON MICROSCOPY5.82014-07-09
704V6M|1|AA16S RIBOSOMAL RNAEscherichia coliStructure of the ribosome-SecYE complex in the membrane environmentELECTRON MICROSCOPY7.12014-07-09
714V7V|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to clindamycin.X-RAY DIFFRACTION3.292014-07-09
724U25|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to virginiamycin M1.X-RAY DIFFRACTION2.92014-07-30
734WOI|1|AA16S ribosomal RNA, Messenger RNAEscherichia coli4,5-linked aminoglycoside antibiotics regulate the bacterial ribosome by targeting dynamic conformational processes within intersubunit bridge B2X-RAY DIFFRACTION32015-08-05
744V89|1|AA16S rRNAEscherichia coliCrystal Structure of Release Factor RF3 Trapped in the GTP State on a Rotated Conformation of the Ribosome (without viomycin)X-RAY DIFFRACTION3.72014-07-09
754V7A|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal post-translocation complex (post4)ELECTRON MICROSCOPY92014-07-09
763JCN|1|a16S ribosomal RNAEscherichia coliStructures of ribosome-bound initiation factor 2 reveal the mechanism of subunit association: Initiation Complex IELECTRON MICROSCOPY4.62016-03-09
774V85|1|AA16S rRNACrystal Structure of Release Factor RF3 Trapped in the GTP State on a Rotated Conformation of the Ribosome.X-RAY DIFFRACTION3.22014-07-09
784U26|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to dalfopristin and quinupristin.X-RAY DIFFRACTION2.82014-07-30
794V76|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post2a)ELECTRON MICROSCOPY172014-07-09
804U24|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to dalfopristin.X-RAY DIFFRACTION2.92014-07-30
814V6T|1|AA16S ribosomal RNAEscherichia coliStructure of the bacterial ribosome complexed by tmRNA-SmpB and EF-G during translocation and MLD-loadingELECTRON MICROSCOPY8.32014-07-09
823J9Z|1|SA16S ribosomal RNAEscherichia coliActivation of GTP Hydrolysis in mRNA-tRNA Translocation by Elongation Factor GELECTRON MICROSCOPY3.62015-07-01
834V77|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post2b)ELECTRON MICROSCOPY172014-07-09
844V7U|1|CA16S rRNAEscherichia coliCrystal structure of the E. coli ribosome bound to erythromycin.X-RAY DIFFRACTION3.12014-07-09
854V6Y|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic pre-translocation state (pre1a)ELECTRON MICROSCOPY122014-07-09
863JCE|1|a16S ribosomal RNAEscherichia coliStructure of Escherichia coli EF4 in pretranslocational ribosomes (Pre EF4)ELECTRON MICROSCOPY3.22016-01-13
873JCJ|1|g16S ribosomal RNAEscherichia coliStructures of ribosome-bound initiation factor 2 reveal the mechanism of subunit associationELECTRON MICROSCOPY3.72016-03-09
884V78|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post3a)ELECTRON MICROSCOPY202014-07-09
894V72|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre4)ELECTRON MICROSCOPY132014-07-09
904V71|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate pre-translocation state (pre2)ELECTRON MICROSCOPY202014-07-09
914V7I|1|BA16S ribosomal RNAEscherichia coliRibosome-SecY complex.ELECTRON MICROSCOPY9.62014-07-09
924V6K|1|BA16S ribosomal RNAEscherichia coliStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY8.252014-07-09
934V73|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre5a)ELECTRON MICROSCOPY152014-07-09
944V79|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post3b)ELECTRON MICROSCOPY152014-07-09
954V74|1|AA16S ribosomal RNAEscherichia coli70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre5b)ELECTRON MICROSCOPY172014-07-09
964V70|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate pre-translocation state (pre3)ELECTRON MICROSCOPY172014-07-09
974V75|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic post-translocation state (post1)ELECTRON MICROSCOPY122014-07-09
984V6Z|1|AA16S ribosomal RNAEscherichia coliE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic pre-translocation state (pre1b)ELECTRON MICROSCOPY122014-07-09
994V6L|1|AA16S ribosomal RNAEscherichia coliStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY13.22014-07-09
1003JA1|1|SA16S ribosomal RNAEscherichia coliActivation of GTP Hydrolysis in mRNA-tRNA Translocation by Elongation Factor GELECTRON MICROSCOPY3.62015-07-01
1014V9O|1|HA16S rRNAEscherichia coliControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.92014-07-09
1024V9C|1|CA16S ribosomal RNA, Messenger RNA, mRNAEscherichia coliAllosteric control of the ribosome by small-molecule antibioticsX-RAY DIFFRACTION3.32014-07-09
1034V6R|1|AA16S ribosomal RNAEscherichia coliStructural characterization of mRNA-tRNA translocation intermediates (class 6 of the six classes)ELECTRON MICROSCOPY11.52014-07-09
1044V6N|1|BA16S ribosomal RNAEscherichia coliStructural characterization of mRNA-tRNA translocation intermediates (50S ribosome of class2 of the six classes)ELECTRON MICROSCOPY12.12014-07-09
1054V6Q|1|AA16S ribosomal RNAEscherichia coliStructural characterization of mRNA-tRNA translocation intermediates (class 5 of the six classes)ELECTRON MICROSCOPY11.52014-07-09
1064V6O|1|AA16S ribosomal RNAEscherichia coliStructural characterization of mRNA-tRNA translocation intermediates (class 4a of the six classes)ELECTRON MICROSCOPY14.72014-07-09
1074V6P|1|AA16S ribosomal RNAEscherichia coliStructural characterization of mRNA-tRNA translocation intermediates (class 4b of the six classes)ELECTRON MICROSCOPY13.52014-07-09
1084V9C|1|AA16S ribosomal RNA, Messenger RNA, mRNAEscherichia coliAllosteric control of the ribosome by small-molecule antibioticsX-RAY DIFFRACTION3.32014-07-09
1093J2H|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY18.82013-01-16
1103J2G|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY16.52013-01-16
1114V6S|1|BA16S ribosomal RNAEscherichia coliStructural characterization of mRNA-tRNA translocation intermediates (class 3 of the six classes)ELECTRON MICROSCOPY13.12014-07-09
1124V7D|1|BA16S ribosomal RNA, mRNAEscherichia coliStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA*EF-G structure)ELECTRON MICROSCOPY7.62014-07-09
1133J2B|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY13.62013-01-16
1143J2D|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY18.72013-01-16
1154V7C|1|AA16S ribosomal RNAEscherichia coliStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA structure)ELECTRON MICROSCOPY7.62014-07-09
1163J2E|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY15.32013-01-16
1173J28|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY12.92013-01-16
1183J2F|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY17.62013-01-16
1193J29|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY142013-01-16
1203J2C|1|N16S rRNA body domainEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY13.22013-01-16
1213J2A|1|N16S rRNAEscherichia coliDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY13.12013-01-16
1223JBV|1|ARNA (1530-MER)Escherichia coliMechanisms of Ribosome Stalling by SecM at Multiple Elongation StepsELECTRON MICROSCOPY3.322016-01-27
1233JCD|1|a16S ribosomal RNAEscherichia coliStructure of Escherichia coli EF4 in posttranslocational ribosomes (Post EF4)ELECTRON MICROSCOPY3.72016-01-13
1244V4V|1|AA16S ribosomal RNAEscherichia coliStructure of a pre-translocational E. coli ribosome obtained by fitting atomic models for RNA and protein components into cryo-EM map EMD-1056ELECTRON MICROSCOPY152014-07-09
1252YKR|1|A16S RRNAEscherichia coli30S ribosomal subunit with RsgA bound in the presence of GMPPNPELECTRON MICROSCOPY9.82011-08-24
1264V4W|1|AA16S ribosomal RNAEscherichia coliStructure of a SecM-stalled E. coli ribosome complex obtained by fitting atomic models for RNA and protein components into cryo-EM map EMD-1143ELECTRON MICROSCOPY152014-07-09
1273JBU|1|A16S rRNAEscherichia coliMechanisms of Ribosome Stalling by SecM at Multiple Elongation StepsELECTRON MICROSCOPY3.642016-01-27
1284V5B|1|BA16S RIBOSOMAL RNAEscherichia coliStructure of PDF binding helix in complex with the ribosomeX-RAY DIFFRACTION3.742014-07-09
1294V5B|1|DA16S RIBOSOMAL RNAEscherichia coliStructure of PDF binding helix in complex with the ribosomeX-RAY DIFFRACTION3.742014-07-09
1304V66|1|A116S rRNAEscherichia coliStructure of the E. coli ribosome and the tRNAs in Post-accommodation stateELECTRON MICROSCOPY92014-07-09
1314V65|1|A116S rRNAEscherichia coliStructure of the E. coli ribosome in the Pre-accommodation stateELECTRON MICROSCOPY92014-07-09
1323DG0|1|A16S Ribosomal RNA from E. coliEscherichia coliCoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of EF-G-bound translocation complexELECTRON MICROSCOPY10.82009-02-03
1333DG4|1|A16S Ribosomal RNA from E. coliEscherichia coliCoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of RF1-bound termination complexELECTRON MICROSCOPY12.82009-02-03
1343DG5|1|A16S Ribosomal RNA from E. coliEscherichia coliCoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of RF3-bound termination complexELECTRON MICROSCOPY15.52009-02-03
1353DG2|1|A16S Ribosomal RNA from E. coliEscherichia coliCoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of a pretranslocation complexELECTRON MICROSCOPY102009-02-03
1364V47|1|BA16S RIBOSOMAL RNAEscherichia coliReal space refined coordinates of the 30S and 50S subunits fitted into the low resolution cryo-EM map of the EF-G.GTP state of E. coli 70S ribosomeELECTRON MICROSCOPY12.32014-07-09
1374V48|1|BA16S RIBOSOMAL RNAEscherichia coliReal space refined coordinates of the 30S and 50S subunits fitted into the low resolution cryo-EM map of the initiation-like state of E. coli 70S ribosomeELECTRON MICROSCOPY11.52014-07-09

Release history

Release2.662.672.682.692.702.712.722.73
Date2016-03-112016-03-182016-03-252016-04-012016-04-082016-04-152016-04-222016-04-29

Children

This class Descendant classesRelease idIntersectionOnly in this classAdded to child
NR_all_56726.10NR_2.5_56726.112.74(2) 4YBB|1|AA, 4YBB|1|BA(135) 4V6Y|1|AA, 3JCE|1|a, 4V72|1|AA, 4ADV|1|A, 4V76|1|AA, 4U1V|1|CA, 4V7A|1|AA, 4U24|1|CA, 4V7I|1|BA, 4U26|1|CA, 4V7T|1|CA, 4V48|1|BA, 4V7V|1|CA, 4V4Q|1|CA, 4V9C|1|CA, 4V50|1|CA, 4V9O|1|DA, 4V53|1|CA, 4V9P|1|DA, 4V55|1|CA, 5AFI|1|a, 4WF1|1|CA, 4V57|1|CA, 4V5Y|1|AA, 4V65|1|A1, 3DG0|1|A, 4V6C|1|CA, 3J28|1|N, 4V6E|1|CA, 3J2C|1|N, 4V6N|1|BA, 3J2G|1|N, 4V6R|1|AA, 3JA1|1|SA, 4V6Z|1|AA, 3JCJ|1|g, 4V73|1|AA, 4U1U|1|AA, 4V77|1|AA, 4U20|1|AA, 4V7B|1|AA, 4U25|1|AA, 4V7S|1|AA, 4U27|1|AA, 4V7U|1|AA, 4V4H|1|AA, 4V85|1|AA, 4V4V|1|AA, 4V9D|1|AA, 4V52|1|AA, 4V9O|1|FA, 4V54|1|AA, 4V9P|1|FA, 4V56|1|AA, 4WOI|1|AA, 4V5B|1|BA, 4V5Y|1|CA, 4WWW|1|XA, 4V66|1|A1, 3DG2|1|A, 4V6D|1|AA, 3J29|1|N, 4V6K|1|BA, 3J2D|1|N, 4V6O|1|AA, 3J2H|1|N, 4V6S|1|BA, 3JBU|1|A, 3JCD|1|a, 4V71|1|AA, 4A2I|1|A, 4V75|1|AA, 4U1V|1|AA, 4V79|1|AA, 4U24|1|AA, 4V7D|1|BA, 4U26|1|AA, 4V7T|1|AA, 4V47|1|BA, 4V7V|1|AA, 4V4Q|1|AA, 4V9C|1|AA, 4V50|1|AA, 4V9O|1|BA, 4V53|1|AA, 4V9P|1|BA, 4V55|1|AA, 4WF1|1|AA, 4V57|1|AA, 4WWW|1|QA, 4V5H|1|AA, 4V64|1|CA, 2YKR|1|A, 4V6C|1|AA, 3DG5|1(0)
NR_all_56726.10NR_20.0_56726.112.74(137) 4V78|1|AA, 4U20|1|CA, 4V7C|1|AA, 4U25|1|CA, 4V7S|1|CA, 4U27|1|CA, 4V7U|1|CA, 4V4H|1|CA, 4V89|1|AA, 4V4W|1|AA, 4V9D|1|BA, 4V52|1|CA, 4V9O|1|HA, 4V54|1|CA, 4V9P|1|HA, 4V56|1|CA, 4V5B|1|DA, 4V64|1|AA, 4V69|1|AA, 3DG4|1|A, 4V6D|1|CA, 3J2A|1|N, 4V6L|1|AA, 3J2E|1|N, 4V6P|1|AA, 3J9Y|1|a, 4V6T|1|AA, 3JBV|1|A, 4V70|1|AA, 3JCN|1|a, 4V74|1|AA, 4U1U|1|CA, 4WOI|1|DA, 4YBB|1|BA, 4V77|1|AA, 4U20|1|AA, 4V7B|1|AA, 4U25|1|AA, 4V7S|1|AA, 4U27|1|AA, 4V7U|1|AA, 4V4H|1|AA, 4V85|1|AA, 4V4V|1|AA, 4V9D|1|AA, 4V52|1|AA, 4V9O|1|FA, 4V54|1|AA, 4V9P|1|FA, 4V56|1|AA, 4V5B|1|BA, 4V5Y|1|CA, 4V66|1|A1, 3DG2|1|A, 4V6D|1|AA, 3J29|1|N, 4V6K|1|BA, 3J2D|1|N, 4V6O|1|AA, 3J2H|1|N, 4V6S|1|BA, 3JBU|1|A, 4V6Z|1|AA, 3JCJ|1|g, 4V73|1|AA, 4U1U|1|AA, 4WOI|1|AA, 4YBB|1|AA, 4V76|1|AA, 4U1V|1|CA, 4V7A|1|AA, 4U24|1|CA, 4V7I|1|BA, 4U26|1|CA, 4V7T|1|CA, 4V48|1|BA, 4V7V|1|CA, 4V4Q|1|CA, 4V9C|1|CA, 4V50|1|CA, 4V9O|1|DA, 4V53|1|CA, 4V9P|1|DA, 4V55|1|CA, 4V57|1|CA, 4V5Y|1|AA, 4V65|1|A1, 3DG0|1|A, 4V6C|1|CA, 3J28|1|N, 4V6E|1|CA, 3J2C|1|N, 4V6N|1|BA, 3J2G|1|N, 4V6R|1(0) (1) 5IQR|1|2
NR_all_56726.10NR_3.0_56726.112.74(29) 4U24|1|CA, 4WOI|1|DA, 4WOI|1|AA, 4V9D|1|BA, 4V9D|1|AA, 4U27|1|CA, 4V9O|1|HA, 4U27|1|AA, 4V9O|1|FA, 4V9P|1|FA, 4U25|1|AA, 4V9P|1|HA, 4U1V|1|AA, 4U1U|1|CA, 4U25|1|CA, 4YBB|1|AA, 5AFI|1|a, 4V9O|1|BA, 4V9P|1|BA, 4V9O|1|DA, 4U20|1|AA, 4U1U|1|AA, 4U1V|1|CA, 4U26|1|AA, 4YBB|1|BA, 4U20|1|CA, 4U26|1|CA, 4V9P|1|DA, 4U24|1|AA(108) 4V7V|1|CA, 4V50|1|AA, 4V6V|1|AA, 4V69|1|AA, 4V7U|1|CA, 4V52|1|AA, 4V6D|1|AA, 4V6Z|1|AA, 4V85|1|AA, 4V7B|1|AA, 3JCD|1|a, 4V9C|1|CA, 4V53|1|AA, 4V50|1|CA, 4V71|1|AA, 4V6D|1|CA, 4V89|1|AA, 4V54|1|AA, 4V6K|1|BA, 4V73|1|AA, 4WF1|1|AA, 4V7S|1|AA, 4A2I|1|A, 4WWW|1|XA, 4V55|1|AA, 4V53|1|CA, 4V75|1|AA, 4V6L|1|AA, 4WF1|1|CA, 4V56|1|AA, 4V77|1|AA, 2YKR|1|A, 4V7U|1|AA, 4V4H|1|AA, 3DG4|1|A, 4V57|1|AA, 4V55|1|CA, 4V79|1|AA, 4V6P|1|AA, 3DG0|1|A, 4V5B|1|BA, 3DG5|1|A, 4V4V|1|AA, 3J2A|1|N, 4V5H|1|AA, 4V57|1|CA, 4V7D|1|BA, 4V6T|1|AA, 3J28|1|N, 3J2B|1|N, 3J2E|1|N, 4V64|1|CA, 4V5Y|1|AA, 4V7T|1|AA, 4V70|1|AA, 3J2C|1|N, 3J2F|1|N, 4V5Y|1|CA, 3J9Y|1|a, 4V6C|1|AA, 4V65|1|A1, 4V7V|1|AA, 4V74|1|AA, 3J2G|1|N, 3J9Z|1|SA, 4V66|1|A1, 3JBV|1|A, 4V6E|1|AA, 4V6C|1|CA, 4V9C|1|AA, 4V78|1|AA, 3JA1|1|SA, 3JCN|1|a, 4V6M|1|AA, 4V6E|1|CA, 4WWW|1|QA, 4V7C|1|AA, 3JCE|1|a, 4V48|1|BA, 4V6Q|1|AA, 4V6N|1|BA, 3DG2|1|A, 4V7S|1|CA, 4ADV|1|A, 4V6O|1|AA, 4V4Q|1|CA, 4V6R|1|AA, 3J29|1|N, 4V4H|1|CA, 4V6S|1|BA, 4V6Y|1|AA, 3J2D|1|N, 4V4W|1|AA, 4V72|1|AA, 3J2H|1|N, 4(1) 5IQR|1|2
NR_all_56726.10NR_3.5_56726.112.74(62) 4V85|1|AA, 4V50|1|CA, 4WF1|1|AA, 4V9P|1|HA, 4U27|1|AA, 4U26|1|CA, 4V64|1|AA, 4V57|1|CA, 5AFI|1|a, 4V9O|1|BA, 4V7T|1|CA, 4V7T|1|AA, 4V9C|1|AA, 4V50|1|AA, 4V9O|1|DA, 4V7V|1|CA, 4V7U|1|AA, 4V64|1|CA, 4V6C|1|AA, 4V9D|1|AA, 4V9C|1|CA, 3JBV|1|A, 4V4H|1|AA, 4U1V|1|CA, 4U27|1|CA, 4U1V|1|AA, 4WF1|1|CA, 4V9O|1|FA, 4V52|1|AA, 4WOI|1|AA, 4V52|1|CA, 4V9O|1|HA, 4V9P|1|BA, 4U24|1|CA, 4V54|1|AA, 4WWW|1|XA, 4WWW|1|QA, 4V6C|1|CA, 4U1U|1|AA, 4V7U|1|CA, 3JCE|1|a, 4V4Q|1|AA, 4U20|1|CA, 4V4H|1|CA, 4U20|1|AA, 4WOI|1|DA, 4U25|1|AA, 4YBB|1|AA, 4V7S|1|AA, 4U25|1|CA, 4V54|1|CA, 4V9P|1|DA, 4V9P|1|FA, 4U26|1|AA, 4V57|1|AA, 4YBB|1|BA, 4V9D|1|BA, 4V7S|1|CA, 4U1U|1|CA, 4V7V|1|AA, 4V4Q|1|CA, 4U24|1|AA(75) 4V53|1|CA, 4V7B|1|AA, 3DG2|1|A, 3J2F|1|N, 3JCD|1|a, 4V5B|1|BA, 4V69|1|AA, 3JCN|1|a, 4V53|1|AA, 4V6E|1|CA, 4V79|1|AA, 4V5H|1|AA, 4V6D|1|CA, 4V4V|1|AA, 4V56|1|CA, 3J29|1|N, 3J9Z|1|SA, 4ADV|1|A, 4V5Y|1|CA, 4V48|1|BA, 4V56|1|AA, 4V6N|1|BA, 4V7D|1|BA, 4V66|1|A1, 3DG5|1|A, 4V6L|1|AA, 4V55|1|AA, 4V5Y|1|AA, 3J2D|1|N, 3JA1|1|SA, 3JCJ|1|g, 4V4W|1|AA, 4V6D|1|AA, 4V6R|1|AA, 3DG0|1|A, 4V6E|1|AA, 3J2B|1|N, 4V6P|1|AA, 3J2H|1|N, 4V47|1|BA, 4V55|1|CA, 4V6K|1|BA, 4V6Y|1|AA, 3J28|1|N, 4V6M|1|AA, 4V6T|1|AA, 3JBU|1|A, 4V5B|1|DA, 4V6O|1|AA, 4V72|1|AA, 3J2C|1|N, 4V6Q|1|AA, 4V70|1|AA, 4V6V|1|AA, 4A2I|1|A, 4V65|1|A1, 4V6S|1|BA, 4V76|1|AA, 3J2G|1|N, 4V74|1|AA, 4V71|1|AA, 4V6Z|1|AA, 4V7A|1|AA, 4V78|1|AA, 4V75|1|AA, 4V73|1|AA, 4V7I|1|BA, 4V7C|1|AA, 2YKR|1|A, 3J2E|1|N, 4V77|1|AA, 3J9Y|1|a, 4V89|1|AA, 3DG4|1|A, 3J2A|1|N(1) 5IQR|1|2
NR_all_56726.10NR_4.0_56726.112.74(81) 4V9P|1|FA, 4YBB|1|BA, 4YBB|1|AA, 4V9D|1|AA, 4V9C|1|CA, 4U27|1|CA, 4U27|1|AA, 4V56|1|AA, 4V55|1|CA, 3J9Y|1|a, 4U1U|1|AA, 4V7U|1|CA, 3JCE|1|a, 4V7U|1|AA, 4V6C|1|CA, 4V6C|1|AA, 4WF1|1|AA, 4WWW|1|XA, 3JCJ|1|g, 3JCD|1|a, 4V9P|1|HA, 4V9P|1|DA, 4V4H|1|AA, 4V6D|1|AA, 4V9C|1|AA, 4V55|1|AA, 4V7T|1|CA, 4V64|1|CA, 4V6D|1|CA, 4WOI|1|AA, 4WF1|1|CA, 5AFI|1|a, 4V9O|1|BA, 4V9D|1|BA, 4V4Q|1|AA, 4V57|1|AA, 4V56|1|CA, 3JBU|1|A, 4U1V|1|AA, 3J9Z|1|SA, 4U1U|1|CA, 4V52|1|AA, 4V50|1|CA, 4V6E|1|AA, 4V52|1|CA, 3JA1|1|SA, 4V4H|1|CA, 4V9O|1|DA, 4V57|1|CA, 4V53|1|AA, 4V7S|1|AA, 4V6E|1|CA, 4V9O|1|HA, 4V50|1|AA, 4V4Q|1|CA, 4V7V|1|CA, 4V7V|1|AA, 4V5B|1|DA, 4U25|1|AA, 4U24|1|CA, 4U20|1|AA, 4U1V|1|CA, 4V53|1|CA, 4V9O|1|FA, 4V5B|1|BA, 4U25|1|CA, 4U24|1|AA, 4V54|1|CA, 4V54|1|AA, 4V7T|1|AA, 3JBV|1|A, 4V7S|1|CA, 4V9P|1|BA, 4WOI|1|DA, 4V89|1|AA, 4V85|1|AA, 4U26|1|CA, 4U26|1|AA, 4V64|1|AA, 4U20|1|CA, 4WWW|1|QA(56) 4V72|1|AA, 4V4W|1|AA, 3J2C|1|N, 4V47|1|BA, 3J29|1|N, 4V6O|1|AA, 4V4V|1|AA, 3J2F|1|N, 2YKR|1|A, 4V6V|1|AA, 3DG0|1|A, 3J2G|1|N, 4V74|1|AA, 3DG4|1|A, 4V76|1|AA, 4V5H|1|AA, 3J2D|1|N, 4V6S|1|BA, 4V5Y|1|CA, 4A2I|1|A, 3DG5|1|A, 4V71|1|AA, 3J28|1|N, 4ADV|1|A, 4V78|1|AA, 3J2A|1|N, 4V7A|1|AA, 4V66|1|A1, 3J2H|1|N, 4V6Z|1|AA, 4V6K|1|BA, 3J2B|1|N, 4V75|1|AA, 4V7C|1|AA, 3J2E|1|N, 4V7I|1|BA, 4V6M|1|AA, 4V73|1|AA, 4V79|1|AA, 4V65|1|A1, 4V6Q|1|AA, 4V77|1|AA, 4V7D|1|BA, 4V6L|1|AA, 4V7B|1|AA, 4V6P|1|AA, 3JCN|1|a, 4V6T|1|AA, 4V48|1|BA, 4V70|1|AA, 3DG2|1|A, 4V5Y|1|AA, 4V69|1|AA, 4V6N|1|BA, 4V6R|1|AA, 4V6Y|1|AA(1) 5IQR|1|2
NR_all_56726.10NR_all_56726.112.74(137) 3DG0|1|A, 3J28|1|N, 3J2C|1|N, 3J2G|1|N, 3JA1|1|SA, 3JCE|1|a, 4ADV|1|A, 4U1V|1|CA, 4U24|1|CA, 4U26|1|CA, 4V48|1|BA, 4V7V|1|CA, 4V4Q|1|CA, 4V9C|1|CA, 4V50|1|CA, 4V9O|1|DA, 4V53|1|CA, 4V9P|1|DA, 4V55|1|CA, 4WF1|1|CA, 4V57|1|CA, 4WWW|1|XA, 4V5Y|1|AA, 4V65|1|A1, 4V6C|1|CA, 4V6E|1|CA, 4V6N|1|BA, 4V6R|1|AA, 4V6Y|1|AA, 4V72|1|AA, 4V76|1|AA, 4V7A|1|AA, 4V7I|1|BA, 4V7T|1|CA, 2YKR|1|A, 3DG5|1|A, 3J2B|1|N, 3J2F|1|N, 3J9Z|1|SA, 3JCD|1|a, 4A2I|1|A, 4U1V|1|AA, 4U24|1|AA, 4U26|1|AA, 4V47|1|BA, 4V7V|1|AA, 4V4Q|1|AA, 4V9C|1|AA, 4V50|1|AA, 4V9O|1|BA, 4V53|1|AA, 4V9P|1|BA, 4V55|1|AA, 4WF1|1|AA, 4V57|1|AA, 4WWW|1|QA, 4V5H|1|AA, 5AFI|1|a, 4V64|1|CA, 4V6C|1|AA, 4V6E|1|AA, 4V6M|1|AA, 4V6Q|1|AA, 4V6V|1|AA, 4V71|1|AA, 4V75|1|AA, 4V79|1|AA, 4V7D|1|BA, 4V7T|1|AA, 3DG4|1|A, 3J2A|1|N, 3J2E|1|N, 3J9Y|1|a, 3JBV|1|A, 3JCN|1|a, 4U1U|1|CA, 4U20|1|CA, 4U25|1|CA, 4U27|1|CA, 4V89|1|AA, 4V4W|1|AA, 4V9D|1|BA, 4V52|1|CA, 4V9O|1|HA, 4V54|1|CA, 4V9P|1|HA, 4V56|1|CA, 4WOI|1|DA, 4V5B|1|DA, 4YBB|1|BA, 4V64|1|AA, 4V69|1|AA, 4V6D|1|CA, 4V6L|1|AA, 4V6P|1|AA(0) (1) 5IQR|1|2

Heat map of mutual geometric discrepancy, in Angstroms per nucleotide. Instances are ordered to put similar structures near each other. The colorbar ranges from 0 to the maximum observed discrepancy, up to 0.5

#S - ordering by similarity (same as in the heat map).
#SPDBTitleMethodResolutionLength
13DG5|1|ACoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of RF3-bound termination complexELECTRON MICROSCOPY15.51530
24V47|1|BAReal space refined coordinates of the 30S and 50S subunits fitted into the low resolution cryo-EM map of the EF-G.GTP state of E. coli 70S ribosomeELECTRON MICROSCOPY12.31487
33DG2|1|ACoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of a pretranslocation complexELECTRON MICROSCOPY101530
44V48|1|BAReal space refined coordinates of the 30S and 50S subunits fitted into the low resolution cryo-EM map of the initiation-like state of E. coli 70S ribosomeELECTRON MICROSCOPY11.51487
53DG0|1|ACoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of EF-G-bound translocation complexELECTRON MICROSCOPY10.81530
63DG4|1|ACoordinates of 16S and 23S rRNAs fitted into the cryo-EM map of RF1-bound termination complexELECTRON MICROSCOPY12.81530
74V65|1|A1Structure of the E. coli ribosome in the Pre-accommodation stateELECTRON MICROSCOPY91530
84V66|1|A1Structure of the E. coli ribosome and the tRNAs in Post-accommodation stateELECTRON MICROSCOPY91530
94V4V|1|AAStructure of a pre-translocational E. coli ribosome obtained by fitting atomic models for RNA and protein components into cryo-EM map EMD-1056ELECTRON MICROSCOPY151488
104V4W|1|AAStructure of a SecM-stalled E. coli ribosome complex obtained by fitting atomic models for RNA and protein components into cryo-EM map EMD-1143ELECTRON MICROSCOPY151488
114V74|1|AA70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre5b)ELECTRON MICROSCOPY171530
124V6Q|1|AAStructural characterization of mRNA-tRNA translocation intermediates (class 5 of the six classes)ELECTRON MICROSCOPY11.51531
134V6R|1|AAStructural characterization of mRNA-tRNA translocation intermediates (class 6 of the six classes)ELECTRON MICROSCOPY11.51531
144V6P|1|AAStructural characterization of mRNA-tRNA translocation intermediates (class 4b of the six classes)ELECTRON MICROSCOPY13.51531
154V6O|1|AAStructural characterization of mRNA-tRNA translocation intermediates (class 4a of the six classes)ELECTRON MICROSCOPY14.71531
164V6S|1|BAStructural characterization of mRNA-tRNA translocation intermediates (class 3 of the six classes)ELECTRON MICROSCOPY13.11531
174V6N|1|BAStructural characterization of mRNA-tRNA translocation intermediates (50S ribosome of class2 of the six classes)ELECTRON MICROSCOPY12.11531
184V7A|1|AAE. coli 70S-fMetVal-tRNAVal post-translocation complex (post4)ELECTRON MICROSCOPY91530
194V78|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post3a)ELECTRON MICROSCOPY201530
204V79|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post3b)ELECTRON MICROSCOPY151530
214V77|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post2b)ELECTRON MICROSCOPY171530
224V73|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre5a)ELECTRON MICROSCOPY151530
234V70|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate pre-translocation state (pre3)ELECTRON MICROSCOPY171530
244V75|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic post-translocation state (post1)ELECTRON MICROSCOPY121530
254V6Z|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic pre-translocation state (pre1b)ELECTRON MICROSCOPY121530
264V71|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate pre-translocation state (pre2)ELECTRON MICROSCOPY201530
274V6Y|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in classic pre-translocation state (pre1a)ELECTRON MICROSCOPY121530
284V72|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in hybrid pre-translocation state (pre4)ELECTRON MICROSCOPY131530
294V76|1|AAE. coli 70S-fMetVal-tRNAVal-tRNAfMet complex in intermediate post-translocation state (post2a)ELECTRON MICROSCOPY171530
304V6K|1|BAStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY8.251531
314V6L|1|AAStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY13.21531
324V7I|1|BARibosome-SecY complex.ELECTRON MICROSCOPY9.61530
333JCN|1|aStructures of ribosome-bound initiation factor 2 reveal the mechanism of subunit association: Initiation Complex IELECTRON MICROSCOPY4.61539
343JCJ|1|gStructures of ribosome-bound initiation factor 2 reveal the mechanism of subunit associationELECTRON MICROSCOPY3.71539
354WOI|1|DA4,5-linked aminoglycoside antibiotics regulate the bacterial ribosome by targeting dynamic conformational processes within intersubunit bridge B2X-RAY DIFFRACTION31539
364V9C|1|AAAllosteric control of the ribosome by small-molecule antibioticsX-RAY DIFFRACTION3.31539
375AFI|1|a2.9A Structure of E. coli ribosome-EF-TU complex by cs-corrected cryo-EMELECTRON MICROSCOPY2.91528
383J9Y|1|aCryo-EM structure of tetracycline resistance protein TetM bound to a translating E.coli ribosomeELECTRON MICROSCOPY3.91528
394V9D|1|BAStructures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-RAY DIFFRACTION31539
404V5H|1|AAE.Coli 70s Ribosome Stalled During Translation Of Tnac Leader Peptide.ELECTRON MICROSCOPY5.81530
414V6M|1|AAStructure of the ribosome-SecYE complex in the membrane environmentELECTRON MICROSCOPY7.11542
423JBV|1|AMechanisms of Ribosome Stalling by SecM at Multiple Elongation StepsELECTRON MICROSCOPY3.321530
433JBU|1|AMechanisms of Ribosome Stalling by SecM at Multiple Elongation StepsELECTRON MICROSCOPY3.641530
443JCD|1|aStructure of Escherichia coli EF4 in posttranslocational ribosomes (Post EF4)ELECTRON MICROSCOPY3.71533
453J9Z|1|SAActivation of GTP Hydrolysis in mRNA-tRNA Translocation by Elongation Factor GELECTRON MICROSCOPY3.61542
464V6V|1|AATetracycline resistance protein Tet(O) bound to the ribosomeELECTRON MICROSCOPY9.81531
474V69|1|AATernary complex-bound E.coli 70S ribosome.ELECTRON MICROSCOPY6.71530
483JCE|1|aStructure of Escherichia coli EF4 in pretranslocational ribosomes (Pre EF4)ELECTRON MICROSCOPY3.21533
494V6E|1|AACrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.711533
504V6D|1|AACrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.811533
514WOI|1|AA4,5-linked aminoglycoside antibiotics regulate the bacterial ribosome by targeting dynamic conformational processes within intersubunit bridge B2X-RAY DIFFRACTION31538
524V9C|1|CAAllosteric control of the ribosome by small-molecule antibioticsX-RAY DIFFRACTION3.31538
534V7C|1|AAStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA structure)ELECTRON MICROSCOPY7.61538
544V7D|1|BAStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA*EF-G structure)ELECTRON MICROSCOPY7.61538
554V9D|1|AAStructures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-RAY DIFFRACTION31538
564V9O|1|BAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
574V9O|1|FAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
583JA1|1|SAActivation of GTP Hydrolysis in mRNA-tRNA Translocation by Elongation Factor GELECTRON MICROSCOPY3.61542
594YBB|1|BAHigh-resolution structure of the Escherichia coli ribosomeX-RAY DIFFRACTION2.11522
604U24|1|CACrystal structure of the E. coli ribosome bound to dalfopristin.X-RAY DIFFRACTION2.91539
614U26|1|CACrystal structure of the E. coli ribosome bound to dalfopristin and quinupristin.X-RAY DIFFRACTION2.81539
624U25|1|CACrystal structure of the E. coli ribosome bound to virginiamycin M1.X-RAY DIFFRACTION2.91539
634U27|1|CACrystal structure of the E. coli ribosome bound to flopristin and linopristin.X-RAY DIFFRACTION2.81539
644U1V|1|CACrystal structure of the E. coli ribosome bound to linopristin.X-RAY DIFFRACTION31539
654U20|1|CACrystal structure of the E. coli ribosome bound to flopristin.X-RAY DIFFRACTION2.91539
664U1U|1|CACrystal structure of the E. coli ribosome bound to quinupristin.X-RAY DIFFRACTION2.951539
674WF1|1|CACrystal structure of the E. coli ribosome bound to negamycin.X-RAY DIFFRACTION3.091539
684WWW|1|XACrystal structure of the E. coli ribosome bound to CEM-101X-RAY DIFFRACTION3.11530
694V7S|1|CACrystal structure of the E. coli ribosome bound to telithromycin.X-RAY DIFFRACTION3.251530
704V7V|1|CACrystal structure of the E. coli ribosome bound to clindamycin.X-RAY DIFFRACTION3.291530
714V7T|1|CACrystal structure of the E. coli ribosome bound to chloramphenicol.X-RAY DIFFRACTION3.191530
724V6C|1|CACrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.191530
734V7U|1|CACrystal structure of the E. coli ribosome bound to erythromycin.X-RAY DIFFRACTION3.11530
744V6D|1|CACrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.811530
754V6E|1|CACrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.711530
764V50|1|CACrystal Structure of Ribosome with messenger RNA and the Anticodon stem-loop of P-site tRNA.X-RAY DIFFRACTION3.221530
774V50|1|AACrystal Structure of Ribosome with messenger RNA and the Anticodon stem-loop of P-site tRNA.X-RAY DIFFRACTION3.221530
784V5B|1|BAStructure of PDF binding helix in complex with the ribosomeX-RAY DIFFRACTION3.741530
794V56|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin.X-RAY DIFFRACTION3.931530
804V4Q|1|AACrystal structure of the bacterial ribosome from Escherichia coli at 3.5 A resolution.X-RAY DIFFRACTION3.461530
814A2I|1|ACryo-electron Microscopy Structure of the 30S Subunit in Complex with the YjeQ Biogenesis FactorELECTRON MICROSCOPY16.51530
824V4H|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with the antibiotic kasugamyin at 3.5A resolution.X-RAY DIFFRACTION3.461530
834V54|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with ribosome recycling factor (RRF).X-RAY DIFFRACTION3.31530
844V64|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with hygromycin B.X-RAY DIFFRACTION3.51530
854V55|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin and ribosome recycling factor (RRF).X-RAY DIFFRACTION41530
864V53|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin.X-RAY DIFFRACTION3.541530
874V52|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with neomycin.X-RAY DIFFRACTION3.211530
884V5Y|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with paromomycin and ribosome recycling factor (RRF).X-RAY DIFFRACTION4.451530
894V57|1|AACrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin and neomycin.X-RAY DIFFRACTION3.51530
904V9P|1|BAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
914V9P|1|DAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
924V9O|1|DAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
934U1V|1|AACrystal structure of the E. coli ribosome bound to linopristin.X-RAY DIFFRACTION31538
944U20|1|AACrystal structure of the E. coli ribosome bound to flopristin.X-RAY DIFFRACTION2.91538
954U1U|1|AACrystal structure of the E. coli ribosome bound to quinupristin.X-RAY DIFFRACTION2.951538
964WF1|1|AACrystal structure of the E. coli ribosome bound to negamycin.X-RAY DIFFRACTION3.091538
974U27|1|AACrystal structure of the E. coli ribosome bound to flopristin and linopristin.X-RAY DIFFRACTION2.81538
984U25|1|AACrystal structure of the E. coli ribosome bound to virginiamycin M1.X-RAY DIFFRACTION2.91538
994U26|1|AACrystal structure of the E. coli ribosome bound to dalfopristin and quinupristin.X-RAY DIFFRACTION2.81538
1004U24|1|AACrystal structure of the E. coli ribosome bound to dalfopristin.X-RAY DIFFRACTION2.91538
1014YBB|1|AAHigh-resolution structure of the Escherichia coli ribosomeX-RAY DIFFRACTION2.11523
1024V6C|1|AACrystal structure of the E. coli 70S ribosome in an intermediate state of ratchetingX-RAY DIFFRACTION3.191533
1034V7T|1|AACrystal structure of the E. coli ribosome bound to chloramphenicol.X-RAY DIFFRACTION3.191533
1044WWW|1|QACrystal structure of the E. coli ribosome bound to CEM-101X-RAY DIFFRACTION3.11533
1054V7S|1|AACrystal structure of the E. coli ribosome bound to telithromycin.X-RAY DIFFRACTION3.251533
1064V7V|1|AACrystal structure of the E. coli ribosome bound to clindamycin.X-RAY DIFFRACTION3.291533
1074V7U|1|AACrystal structure of the E. coli ribosome bound to erythromycin.X-RAY DIFFRACTION3.11533
1084V9O|1|HAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
1094V9P|1|HAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
1104V9P|1|FAControl of ribosomal subunit rotation by elongation factor GX-RAY DIFFRACTION2.91533
1114V5B|1|DAStructure of PDF binding helix in complex with the ribosomeX-RAY DIFFRACTION3.741530
1124V57|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin and neomycin.X-RAY DIFFRACTION3.51530
1134V56|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with spectinomycin.X-RAY DIFFRACTION3.931530
1144V4Q|1|CACrystal structure of the bacterial ribosome from Escherichia coli at 3.5 A resolution.X-RAY DIFFRACTION3.461530
1154V4H|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with the antibiotic kasugamyin at 3.5A resolution.X-RAY DIFFRACTION3.461530
1164V54|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with ribosome recycling factor (RRF).X-RAY DIFFRACTION3.31530
1174V64|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with hygromycin B.X-RAY DIFFRACTION3.51530
1184V5Y|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with paromomycin and ribosome recycling factor (RRF).X-RAY DIFFRACTION4.451530
1194V52|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with neomycin.X-RAY DIFFRACTION3.211530
1204V53|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin.X-RAY DIFFRACTION3.541530
1214V55|1|CACrystal structure of the bacterial ribosome from Escherichia coli in complex with gentamicin and ribosome recycling factor (RRF).X-RAY DIFFRACTION41530
1224V85|1|AACrystal Structure of Release Factor RF3 Trapped in the GTP State on a Rotated Conformation of the Ribosome.X-RAY DIFFRACTION3.21532
1234V89|1|AACrystal Structure of Release Factor RF3 Trapped in the GTP State on a Rotated Conformation of the Ribosome (without viomycin)X-RAY DIFFRACTION3.71532
1244V7B|1|AAVisualization of two tRNAs trapped in transit during EF-G-mediated translocationELECTRON MICROSCOPY6.81533
1254ADV|1|AStructure of the E. coli methyltransferase KsgA bound to the E. coli 30S ribosomal subunitELECTRON MICROSCOPY13.51410
1264V6T|1|AAStructure of the bacterial ribosome complexed by tmRNA-SmpB and EF-G during translocation and MLD-loadingELECTRON MICROSCOPY8.31538
1272YKR|1|A30S ribosomal subunit with RsgA bound in the presence of GMPPNPELECTRON MICROSCOPY9.81533
1283J2A|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY13.11533
1293J28|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY12.91533
1303J2E|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY15.31533
1313J2F|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY17.61533
1323J2B|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY13.61533
1333J2G|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY16.51533
1343J29|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY141533
1353J2C|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY13.2927
1363J2H|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY18.81533
1373J2D|1|NDissecting the in vivo assembly of the 30S ribosomal subunit reveals the role of RimMELECTRON MICROSCOPY18.71533