#IFEStandardized nameMoleculeOrganismSourceRfamTitleMethodRes. ÅDate
12ZM5|1|C (rep)Transfer RNAtRNA(Phe)Escherichia coliBacteriaRF00005Crystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe)X-ray diffraction2.552009-04-14
22ZXU|1|CTransfer RNAtRNA(Phe)Escherichia coliBacteriaRF00005Crystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe) and DMASPPX-ray diffraction2.752009-05-26
33FOZ|1|CtRNA(Phe)Structure of E. coli Isopentenyl-tRNA transferase in complex with E. coli tRNA(Phe)X-ray diffraction2.52009-01-20
43L0U|1|ATransfer RNAUnmodified tRNAPheEscherichia coliBacteriaRF00005The crystal structure of unmodified tRNAPhe from Escherichia coliX-ray diffraction32010-03-16
54V5E|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES), MRNAEscherichia coliBacteriaRF00005Insights into translational termination from the structure of RF2 bound to the ribosomeX-ray diffraction3.452014-07-09
64V9D|1|BVTransfer RNAmessenger RNA, phenylalanine specific transfer RNAEscherichia coliBacteriaRF00005Structures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-ray diffraction32014-07-09
73FOZ|1|DtRNA(Phe)Structure of E. coli Isopentenyl-tRNA transferase in complex with E. coli tRNA(Phe)X-ray diffraction2.52009-01-20
84V5D|1|AVTransfer RNAMRNA, P AND A-SITE PHE-TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-ray diffraction3.52014-07-09
94V5D|1|CVTransfer RNAMRNA, P AND A-SITE PHE-TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-ray diffraction3.52014-07-09
104V9C|1|AVTransfer RNAMessenger RNA, mRNA, Phenylalanine specific transfer RNA, tRNA-PheEscherichia coliBacteriaRF00005Allosteric control of the ribosome by small-molecule antibioticsX-ray diffraction3.32014-07-09
114V5Q|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
124V5S|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
134V5L|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The structure of EF-Tu and aminoacyl-tRNA bound to the 70S ribosome with a GTP analogX-ray diffraction3.12014-07-09
144V5P|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
154V5P|1|CVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
162ZM5|1|DTransfer RNAtRNA(Phe)Escherichia coliBacteriaRF00005Crystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe)X-ray diffraction2.552009-04-14
174V6F|1|CCTransfer RNAMRNA, TRNA-PHE WITH UNMODIFIED NUCLEOTIDES EXCEPT FOR MIA37Escherichia coliBacteriaRF00005Elongation complex of the 70S ribosome with three tRNAs and mRNA.X-ray diffraction3.12014-07-09
184V5J|1|CVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES), MRNAEscherichia coliBacteriaRF00005Structure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-ray diffraction3.12014-07-09
194W2F|1|AWTransfer RNAA/P-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.42014-10-15
204V5R|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
214V5E|1|CVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES), MRNAEscherichia coliBacteriaRF00005Insights into translational termination from the structure of RF2 bound to the ribosomeX-ray diffraction3.452014-07-09
224V5R|1|CVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
234V5Q|1|CVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
244V6L|1|AETransfer RNAA/T-site tRNA PheEscherichia coliBacteriaRF00005Structural insights into cognate vs. near-cognate discrimination during decoding.Electron microscopy13.22014-07-09
252ZXU|1|DTransfer RNAtRNA(Phe)Escherichia coliBacteriaRF00005Crystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe) and DMASPPX-ray diffraction2.752009-05-26
264V6F|1|BCTransfer RNAMRNA, TRNA-PHE WITH UNMODIFIED NUCLEOTIDES EXCEPT FOR MIA37Escherichia coliBacteriaRF00005Elongation complex of the 70S ribosome with three tRNAs and mRNA.X-ray diffraction3.12014-07-09
274V5S|1|CVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
284W2E|1|wTransfer RNAmRNA, P-site tRNAEscherichia coliBacteriaRF00005Crystal structure of Elongation Factor 4 (EF4/LepA) bound to the Thermus thermophilus 70S ribosomeX-ray diffraction2.92014-10-01
294V9H|1|AVTransfer RNAmRNA, PE hybrid state tRNA PheEscherichia coliBacteriaRF00005Crystal structure of the ribosome bound to elongation factor G in the guanosine triphosphatase stateX-ray diffraction2.862014-07-09
301VY5|1|AWTransfer RNAA-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-ray diffraction2.552014-08-20
314V6K|1|BBTransfer RNAA/T-site tRNA Phe, mRNAEscherichia coliBacteriaRF00005Structural insights into cognate vs. near-cognate discrimination during decoding.Electron microscopy8.252014-07-09
324V6K|1|BETransfer RNAA/T-site tRNA Phe, mRNAEscherichia coliBacteriaRF00005Structural insights into cognate vs. near-cognate discrimination during decoding.Electron microscopy8.252014-07-09
334V5J|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES), MRNAEscherichia coliBacteriaRF00005Structure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-ray diffraction3.12014-07-09
344W2I|1|AWTransfer RNAA/P-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.72014-10-15
351VY4|1|AYTransfer RNAE-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-ray diffraction2.62014-08-20
364W2E|1|xTransfer RNAE-site tRNAEscherichia coliBacteriaRF00005Crystal structure of Elongation Factor 4 (EF4/LepA) bound to the Thermus thermophilus 70S ribosomeX-ray diffraction2.92014-10-01
374V69|1|AWTransfer RNAP-site tRNA fMet (Unmodified bases except for Thymine 54)Escherichia coliBacteriaRF00005Ternary complex-bound E.coli 70S ribosome.Electron microscopy6.72014-07-09
384V7D|1|BWTransfer RNAmRNA, tRNAEscherichia coliBacteriaRF00005Structure 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
394P6F|1|XWTransfer RNAE-Site tRNA-Phe or A-Site tRNA-PheEscherichia coliBacteriaRF00005Crystal structure of the peptolide 12C bound to bacterial ribosomeX-ray diffraction3.62014-10-01
404W2G|1|AWTransfer RNAA/P-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.552014-10-15
411VY5|1|CWTransfer RNAA-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-ray diffraction2.552014-08-20
424V6F|1|CBTransfer RNAMRNA, TRNA-PHE WITH UNMODIFIED NUCLEOTIDES EXCEPT FOR MIA37Escherichia coliBacteriaRF00005Elongation complex of the 70S ribosome with three tRNAs and mRNA.X-ray diffraction3.12014-07-09
431VY4|1|AWTransfer RNAA-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-ray diffraction2.62014-08-20
444V4Y|1|ABTransfer RNAmRNA, tRNA PHE (unmodified bases)Escherichia coliBacteriaRF00005Crystal structure of the 70S Thermus thermophilus ribosome with translocated and rotated Shine-Dalgarno Duplex.X-ray diffraction5.52014-07-09
454V9D|1|AVTransfer RNAmessenger RNA, phenylalanine specific transfer RNAEscherichia coliBacteriaRF00005Structures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-ray diffraction32014-07-09
464V7C|1|AWTransfer RNAmRNA, tRNAEscherichia coliBacteriaRF00005Structure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA structure)Electron microscopy7.62014-07-09
474W2G|1|AYTransfer RNAA/P-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.552014-10-15
484W2F|1|AYTransfer RNAA/P-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.42014-10-15
494V4I|1|zTransfer RNAMRNA, P-site PHE-tRNAEscherichia coliBacteriaRF00005Crystal Structure of a 70S Ribosome-tRNA Complex Reveals Functional Interactions and Rearrangements.X-ray diffraction3.712014-07-09
501VY4|1|CWTransfer RNAA-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-ray diffraction2.62014-08-20
514W2G|1|CWTransfer RNAA/P-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.552014-10-15
524V6F|1|BBTransfer RNAMRNA, TRNA-PHE WITH UNMODIFIED NUCLEOTIDES EXCEPT FOR MIA37Escherichia coliBacteriaRF00005Elongation complex of the 70S ribosome with three tRNAs and mRNA.X-ray diffraction3.12014-07-09
534V6F|1|BDTransfer RNAMRNA, TRNA-PHE WITH UNMODIFIED NUCLEOTIDES EXCEPT FOR MIA37Escherichia coliBacteriaRF00005Elongation complex of the 70S ribosome with three tRNAs and mRNA.X-ray diffraction3.12014-07-09
544V6F|1|CDTransfer RNAMRNA, TRNA-PHE WITH UNMODIFIED NUCLEOTIDES EXCEPT FOR MIA37Escherichia coliBacteriaRF00005Elongation complex of the 70S ribosome with three tRNAs and mRNA.X-ray diffraction3.12014-07-09
553J46|1|aTransfer RNAA-tRNAEscherichia coliBacteriaRF00005Structure of the SecY protein translocation channel in actionElectron microscopy10.12013-10-23
564W2F|1|CYTransfer RNAA/P-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.42014-10-15
571VY4|1|CYTransfer RNAE-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-ray diffraction2.62014-08-20
584W2G|1|CYTransfer RNAA/P-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.552014-10-15
594V5G|1|AVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-ray diffraction3.62014-07-09
604V51|1|AWTransfer RNAE-SITE TRNA PHE OR A-SITE TRNA PHE (UNMODIFIED BASES)Escherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome complexed with mRNA, tRNA and paromomycinX-ray diffraction2.82014-07-09
614V5G|1|CVTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE, MRNAEscherichia coliBacteriaRF00005The crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-ray diffraction3.62014-07-09
621VY5|1|AYTransfer RNAE-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-ray diffraction2.552014-08-20
634W2I|1|AYTransfer RNAA/P-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.72014-10-15
644W2I|1|CWTransfer RNAA/P-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.72014-10-15
654V4Y|1|ADTransfer RNAmRNA, tRNA PHE (unmodified bases)Escherichia coliBacteriaRF00005Crystal structure of the 70S Thermus thermophilus ribosome with translocated and rotated Shine-Dalgarno Duplex.X-ray diffraction5.52014-07-09
664V9I|1|AWTransfer RNAE-SITE tRNAEscherichia coliBacteriaRF00005Crystal structure of thermus thermophilus 70S in complex with tRNAs and mRNA containing a pseudouridine in a stop codonX-ray diffraction3.32014-07-09
674V5D|1|AWTransfer RNAE-SITE TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-ray diffraction3.52014-07-09
684V5C|1|CWTransfer RNAE-SITE TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-ray diffraction3.32014-07-09
694P6F|1|QWTransfer RNAE-Site tRNA-Phe or A-Site tRNA-PheEscherichia coliBacteriaRF00005Crystal structure of the peptolide 12C bound to bacterial ribosomeX-ray diffraction3.62014-10-01
704V6L|1|ABTransfer RNAA/T-site tRNA Phe, mRNAEscherichia coliBacteriaRF00005Structural insights into cognate vs. near-cognate discrimination during decoding.Electron microscopy13.22014-07-09
714W2I|1|CYTransfer RNAA/P-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.72014-10-15
724W2F|1|CWTransfer RNAA/P-site tRNA, mRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-ray diffraction2.42014-10-15
734V4Y|1|ACTransfer RNAmRNA, tRNA PHE (unmodified bases)Escherichia coliBacteriaRF00005Crystal structure of the 70S Thermus thermophilus ribosome with translocated and rotated Shine-Dalgarno Duplex.X-ray diffraction5.52014-07-09
744V97|1|AWTransfer RNAE-SITE TRNA PHE OR A-SITE tRNA PheEscherichia coliBacteriaRF00005Crystal structure of the bacterial ribosome ram mutation G299A.X-ray diffraction3.522014-07-09
754V5D|1|CWTransfer RNAE-SITE TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-ray diffraction3.52014-07-09
764V51|1|CWTransfer RNAE-SITE TRNA PHE OR A-SITE TRNA PHE (UNMODIFIED BASES)Escherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome complexed with mRNA, tRNA and paromomycinX-ray diffraction2.82014-07-09
771VY5|1|CYTransfer RNAE-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-ray diffraction2.552014-08-20
784V8J|1|AWTransfer RNAtRNA-PheEscherichia coliBacteriaRF00005Crystal structure of the bacterial ribosome ram mutation G347U.X-ray diffraction3.92014-07-09
794V5C|1|AWTransfer RNAE-SITE TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-ray diffraction3.32014-07-09
804V5Q|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
814V5E|1|CWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES)Escherichia coliBacteriaRF00005Insights into translational termination from the structure of RF2 bound to the ribosomeX-ray diffraction3.452014-07-09
824V7C|1|AVTransfer RNAmRNA, tRNAEscherichia coliBacteriaRF00005Structure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA structure)Electron microscopy7.62014-07-09
834V5P|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
844V5R|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
854V8J|1|CWTransfer RNAtRNA-PheEscherichia coliBacteriaRF00005Crystal structure of the bacterial ribosome ram mutation G347U.X-ray diffraction3.92014-07-09
864V5P|1|CWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
874V97|1|CWTransfer RNAE-SITE TRNA PHE OR A-SITE tRNA PheEscherichia coliBacteriaRF00005Crystal structure of the bacterial ribosome ram mutation G299A.X-ray diffraction3.522014-07-09
884V9I|1|CWTransfer RNAE-SITE tRNAEscherichia coliBacteriaRF00005Crystal structure of thermus thermophilus 70S in complex with tRNAs and mRNA containing a pseudouridine in a stop codonX-ray diffraction3.32014-07-09
894V5D|1|AYTransfer RNAMRNA, P AND A-SITE PHE-TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-ray diffraction3.52014-07-09
904V5J|1|CWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES)Escherichia coliBacteriaRF00005Structure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-ray diffraction3.12014-07-09
914V5D|1|CYTransfer RNAMRNA, P AND A-SITE PHE-TRNA PHEEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-ray diffraction3.52014-07-09
924V5L|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The structure of EF-Tu and aminoacyl-tRNA bound to the 70S ribosome with a GTP analogX-ray diffraction3.12014-07-09
934V9C|1|CVTransfer RNAMessenger RNA, mRNA, Phenylalanine specific transfer RNA, tRNA-PheEscherichia coliBacteriaRF00005Allosteric control of the ribosome by small-molecule antibioticsX-ray diffraction3.32014-07-09
944V5S|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
954V7D|1|BVTransfer RNAmRNA, tRNAEscherichia coliBacteriaRF00005Structure 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
964V5R|1|CWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
974V5C|1|CYTransfer RNAA-SITE PHE-TRNA PHE, MRNAEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-ray diffraction3.32014-07-09
984V5G|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-ray diffraction3.62014-07-09
994V5G|1|CWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-ray diffraction3.62014-07-09
1004V5J|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES)Escherichia coliBacteriaRF00005Structure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-ray diffraction3.12014-07-09
1014V5Q|1|CWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-ray diffraction3.12014-07-09
1024W2H|1|AYTransfer RNAE-site tRNA Acceptor StemEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (co-crystallized), mRNA and deacylated tRNA in the P siteX-ray diffraction2.72014-10-15
1034V5E|1|AWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHE (UNMODIFIED BASES)Escherichia coliBacteriaRF00005Insights into translational termination from the structure of RF2 bound to the ribosomeX-ray diffraction3.452014-07-09
1044V5C|1|AYTransfer RNAA-SITE PHE-TRNA PHE, MRNAEscherichia coliBacteriaRF00005Structure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-ray diffraction3.32014-07-09
1054V5S|1|CWTransfer RNAE-SITE TRNA PHE OR P-SITE TRNA PHEEscherichia coliBacteriaRF00005The crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-ray diffraction3.12014-07-09
1061VY7|1|AYTransfer RNAE-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing short substrate-mimic Cytidine-Cytidine-Puromycin in the A site and acylated tRNA in the P site.X-ray diffraction2.82014-08-20
1071VY7|1|CYTransfer RNAE-site tRNAEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing short substrate-mimic Cytidine-Cytidine-Puromycin in the A site and acylated tRNA in the P site.X-ray diffraction2.82014-08-20
1084W2H|1|CYTransfer RNAE-site tRNA Acceptor StemEscherichia coliBacteriaRF00005Crystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (co-crystallized), mRNA and deacylated tRNA in the P siteX-ray diffraction2.72014-10-15

Release history

Release2.02.12.22.32.42.52.62.7
Date2014-12-052014-12-122014-12-192014-12-262015-01-022015-01-092015-01-162015-01-23

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Children

This class Descendant classesRelease idIntersectionOnly in this classAdded to child
NR_all_19951.1NR_2.5_19951.22.8(6) 3FOZ|1|C, 3FOZ|1|D, 4W2F|1|AW, 4W2F|1|AY, 4W2F|1|CW, 4W2F|1|CY(102) 1VY4|1|AW, 1VY4|1|AY, 1VY4|1|CW, 1VY4|1|CY, 1VY5|1|AW, 1VY5|1|AY, 1VY5|1|CW, 1VY5|1|CY, 1VY7|1|AY, 1VY7|1|CY, 2ZM5|1|C, 2ZM5|1|D, 2ZXU|1|C, 2ZXU|1|D, 3J46|1|a, 3L0U|1|A, 4P6F|1|QW, 4P6F|1|XW, 4V4I|1|z, 4V4Y|1|AB, 4V4Y|1|AC, 4V4Y|1|AD, 4V51|1|AW, 4V51|1|CW, 4V5C|1|AW, 4V5C|1|AY, 4V5C|1|CW, 4V5C|1|CY, 4V5D|1|AV, 4V5D|1|AW, 4V5D|1|AY, 4V5D|1|CV, 4V5D|1|CW, 4V5D|1|CY, 4V5E|1|AV, 4V5E|1|AW, 4V5E|1|CV, 4V5E|1|CW, 4V5G|1|AV, 4V5G|1|AW, 4V5G|1|CV, 4V5G|1|CW, 4V5J|1|AV, 4V5J|1|AW, 4V5J|1|CV, 4V5J|1|CW, 4V5L|1|AV, 4V5L|1|AW, 4V5P|1|AV, 4V5P|1|AW, 4V5P|1|CV, 4V5P|1|CW, 4V5Q|1|AV, 4V5Q|1|AW, 4V5Q|1|CV, 4V5Q|1|CW, 4V5R|1|AV, 4V5R|1|AW, 4V5R|1|CV, 4V5R|1|CW, 4V5S|1|AV, 4V5S|1|AW, 4V5S|1|CV, 4V5S|1|CW, 4V69|1|AW, 4V6F|1|BB, 4V6F|1|BC, 4V6F|1|BD, 4V6F|1|CB, 4V6F|1|CC, 4V6F|1|CD, 4V6K|1|BB, 4V6K|1|BE, 4V6L|1|AB, 4V6L|1|AE, 4V7C|1|AV, 4V7C|1|AW, 4V7D|1|BV, 4V7D|1|BW, 4V8J|1|AW, 4V8J|1|CW, 4V97|1|AW, 4V97|1|CW, 4V9C|1|AV, 4V9C|1|CV, 4V9D|1|AV, 4V9D|1|BV, 4V9H|1|AV, 4V9I|1|AW, 4V9I|1|CW, 4W2E|1|w, 4W2E|1|x, 4W2G|1|AW, 4W2G|1|AY, 4W2G|1|CW, 4W2G|1|CY, 4W2H|1|AY, 4W2H|1|CY, 4W2I|1|AW, 4W2I|1|AY, 4W2I|1|CW, 4W2I|1|CY(0)
NR_all_19951.1NR_20.0_19951.22.8(108) 1VY4|1|AW, 1VY4|1|AY, 1VY4|1|CW, 1VY4|1|CY, 1VY5|1|AW, 1VY5|1|AY, 1VY5|1|CW, 1VY5|1|CY, 1VY7|1|AY, 1VY7|1|CY, 2ZM5|1|C, 2ZM5|1|D, 2ZXU|1|C, 2ZXU|1|D, 3FOZ|1|C, 3FOZ|1|D, 3J46|1|a, 3L0U|1|A, 4P6F|1|QW, 4P6F|1|XW, 4V4I|1|z, 4V4Y|1|AB, 4V4Y|1|AC, 4V4Y|1|AD, 4V51|1|AW, 4V51|1|CW, 4V5C|1|AW, 4V5C|1|AY, 4V5C|1|CW, 4V5C|1|CY, 4V5D|1|AV, 4V5D|1|AW, 4V5D|1|AY, 4V5D|1|CV, 4V5D|1|CW, 4V5D|1|CY, 4V5E|1|AV, 4V5E|1|AW, 4V5E|1|CV, 4V5E|1|CW, 4V5G|1|AV, 4V5G|1|AW, 4V5G|1|CV, 4V5G|1|CW, 4V5J|1|AV, 4V5J|1|AW, 4V5J|1|CV, 4V5J|1|CW, 4V5L|1|AV, 4V5L|1|AW, 4V5P|1|AV, 4V5P|1|AW, 4V5P|1|CV, 4V5P|1|CW, 4V5Q|1|AV, 4V5Q|1|AW, 4V5Q|1|CV, 4V5Q|1|CW, 4V5R|1|AV, 4V5R|1|AW, 4V5R|1|CV, 4V5R|1|CW, 4V5S|1|AV, 4V5S|1|AW, 4V5S|1|CV, 4V5S|1|CW, 4V69|1|AW, 4V6F|1|BB, 4V6F|1|BC, 4V6F|1|BD, 4V6F|1|CB, 4V6F|1|CC, 4V6F|1|CD, 4V6K|1|BB, 4V6K|1|BE, 4V6L|1|AB, 4V6L|1|AE, 4V7C|1|AV, 4V7C|1|AW, 4V7D|1|BV, 4V7D|1|BW, 4V8J|1|AW, 4V8J|1|CW, 4V97|1|AW, 4V97|1|CW, 4V9C|1|AV, 4V9C|1|CV, 4V9D|1|AV, 4V9D|1|BV, 4V9H|1|AV, 4V9I|1|AW, 4V9I|1|CW, 4W2E|1|w, 4W2E|1|x, 4W2F|1|AW, 4W2F|1|AY, 4W2F|1|CW, 4W2F|1|CY, 4W2G|1|AW, 4W2G|1|AY, 4W2G|1|CW, 4W2G|1|CY, 4W2H|1|AY, 4W2H|1|CY, 4W2I|1|AW, 4W2I|1|AY, 4W2I|1|CW, 4W2I|1|CY(0) (12) 4WPO|1|BW, 4WPO|1|BY, 4WPO|1|DW, 4WPO|1|DY, 4WQF|1|BW, 4WQF|1|BY, 4WQF|1|DW, 4WQF|1|DY, 4WQU|1|BW, 4WQU|1|BY, 4WQU|1|DW, 4WQU|1|DY
NR_all_19951.1NR_3.0_19951.22.8(38) 1VY4|1|AW, 1VY4|1|AY, 1VY4|1|CW, 1VY4|1|CY, 1VY5|1|AW, 1VY5|1|AY, 1VY5|1|CW, 1VY5|1|CY, 1VY7|1|AY, 1VY7|1|CY, 2ZM5|1|C, 2ZM5|1|D, 2ZXU|1|C, 2ZXU|1|D, 3FOZ|1|C, 3FOZ|1|D, 3L0U|1|A, 4V51|1|AW, 4V51|1|CW, 4V9D|1|AV, 4V9D|1|BV, 4V9H|1|AV, 4W2E|1|w, 4W2E|1|x, 4W2F|1|AW, 4W2F|1|AY, 4W2F|1|CW, 4W2F|1|CY, 4W2G|1|AW, 4W2G|1|AY, 4W2G|1|CW, 4W2G|1|CY, 4W2H|1|AY, 4W2H|1|CY, 4W2I|1|AW, 4W2I|1|AY, 4W2I|1|CW, 4W2I|1|CY(70) 3J46|1|a, 4P6F|1|QW, 4P6F|1|XW, 4V4I|1|z, 4V4Y|1|AB, 4V4Y|1|AC, 4V4Y|1|AD, 4V5C|1|AW, 4V5C|1|AY, 4V5C|1|CW, 4V5C|1|CY, 4V5D|1|AV, 4V5D|1|AW, 4V5D|1|AY, 4V5D|1|CV, 4V5D|1|CW, 4V5D|1|CY, 4V5E|1|AV, 4V5E|1|AW, 4V5E|1|CV, 4V5E|1|CW, 4V5G|1|AV, 4V5G|1|AW, 4V5G|1|CV, 4V5G|1|CW, 4V5J|1|AV, 4V5J|1|AW, 4V5J|1|CV, 4V5J|1|CW, 4V5L|1|AV, 4V5L|1|AW, 4V5P|1|AV, 4V5P|1|AW, 4V5P|1|CV, 4V5P|1|CW, 4V5Q|1|AV, 4V5Q|1|AW, 4V5Q|1|CV, 4V5Q|1|CW, 4V5R|1|AV, 4V5R|1|AW, 4V5R|1|CV, 4V5R|1|CW, 4V5S|1|AV, 4V5S|1|AW, 4V5S|1|CV, 4V5S|1|CW, 4V69|1|AW, 4V6F|1|BB, 4V6F|1|BC, 4V6F|1|BD, 4V6F|1|CB, 4V6F|1|CC, 4V6F|1|CD, 4V6K|1|BB, 4V6K|1|BE, 4V6L|1|AB, 4V6L|1|AE, 4V7C|1|AV, 4V7C|1|AW, 4V7D|1|BV, 4V7D|1|BW, 4V8J|1|AW, 4V8J|1|CW, 4V97|1|AW, 4V97|1|CW, 4V9C|1|AV, 4V9C|1|CV, 4V9I|1|AW, 4V9I|1|CW(12) 4WPO|1|BW, 4WPO|1|BY, 4WPO|1|DW, 4WPO|1|DY, 4WQF|1|BW, 4WQF|1|BY, 4WQF|1|DW, 4WQF|1|DY, 4WQU|1|BW, 4WQU|1|BY, 4WQU|1|DW, 4WQU|1|DY
NR_all_19951.1NR_3.5_19951.22.8(84) 1VY4|1|AW, 1VY4|1|AY, 1VY4|1|CW, 1VY4|1|CY, 1VY5|1|AW, 1VY5|1|AY, 1VY5|1|CW, 1VY5|1|CY, 1VY7|1|AY, 1VY7|1|CY, 2ZM5|1|C, 2ZM5|1|D, 2ZXU|1|C, 2ZXU|1|D, 3FOZ|1|C, 3FOZ|1|D, 3L0U|1|A, 4V51|1|AW, 4V51|1|CW, 4V5C|1|AW, 4V5C|1|AY, 4V5C|1|CW, 4V5C|1|CY, 4V5D|1|AV, 4V5D|1|AW, 4V5D|1|AY, 4V5D|1|CV, 4V5D|1|CW, 4V5D|1|CY, 4V5E|1|AV, 4V5E|1|AW, 4V5E|1|CV, 4V5E|1|CW, 4V5J|1|AV, 4V5J|1|AW, 4V5J|1|CV, 4V5J|1|CW, 4V5L|1|AV, 4V5L|1|AW, 4V5P|1|AV, 4V5P|1|AW, 4V5P|1|CV, 4V5P|1|CW, 4V5Q|1|AV, 4V5Q|1|AW, 4V5Q|1|CV, 4V5Q|1|CW, 4V5R|1|AV, 4V5R|1|AW, 4V5R|1|CV, 4V5R|1|CW, 4V5S|1|AV, 4V5S|1|AW, 4V5S|1|CV, 4V5S|1|CW, 4V6F|1|BB, 4V6F|1|BC, 4V6F|1|BD, 4V6F|1|CB, 4V6F|1|CC, 4V6F|1|CD, 4V9C|1|AV, 4V9C|1|CV, 4V9D|1|AV, 4V9D|1|BV, 4V9H|1|AV, 4V9I|1|AW, 4V9I|1|CW, 4W2E|1|w, 4W2E|1|x, 4W2F|1|AW, 4W2F|1|AY, 4W2F|1|CW, 4W2F|1|CY, 4W2G|1|AW, 4W2G|1|AY, 4W2G|1|CW, 4W2G|1|CY, 4W2H|1|AY, 4W2H|1|CY, 4W2I|1|AW, 4W2I|1|AY, 4W2I|1|CW, 4W2I|1|CY(24) 3J46|1|a, 4P6F|1|QW, 4P6F|1|XW, 4V4I|1|z, 4V4Y|1|AB, 4V4Y|1|AC, 4V4Y|1|AD, 4V5G|1|AV, 4V5G|1|AW, 4V5G|1|CV, 4V5G|1|CW, 4V69|1|AW, 4V6K|1|BB, 4V6K|1|BE, 4V6L|1|AB, 4V6L|1|AE, 4V7C|1|AV, 4V7C|1|AW, 4V7D|1|BV, 4V7D|1|BW, 4V8J|1|AW, 4V8J|1|CW, 4V97|1|AW, 4V97|1|CW(12) 4WPO|1|BW, 4WPO|1|BY, 4WPO|1|DW, 4WPO|1|DY, 4WQF|1|BW, 4WQF|1|BY, 4WQF|1|DW, 4WQF|1|DY, 4WQU|1|BW, 4WQU|1|BY, 4WQU|1|DW, 4WQU|1|DY
NR_all_19951.1NR_4.0_19951.22.8(95) 1VY4|1|AW, 1VY4|1|AY, 1VY4|1|CW, 1VY4|1|CY, 1VY5|1|AW, 1VY5|1|AY, 1VY5|1|CW, 1VY5|1|CY, 1VY7|1|AY, 1VY7|1|CY, 2ZM5|1|C, 2ZM5|1|D, 2ZXU|1|C, 2ZXU|1|D, 3FOZ|1|C, 3FOZ|1|D, 3L0U|1|A, 4P6F|1|QW, 4P6F|1|XW, 4V4I|1|z, 4V51|1|AW, 4V51|1|CW, 4V5C|1|AW, 4V5C|1|AY, 4V5C|1|CW, 4V5C|1|CY, 4V5D|1|AV, 4V5D|1|AW, 4V5D|1|AY, 4V5D|1|CV, 4V5D|1|CW, 4V5D|1|CY, 4V5E|1|AV, 4V5E|1|AW, 4V5E|1|CV, 4V5E|1|CW, 4V5G|1|AV, 4V5G|1|AW, 4V5G|1|CV, 4V5G|1|CW, 4V5J|1|AV, 4V5J|1|AW, 4V5J|1|CV, 4V5J|1|CW, 4V5L|1|AV, 4V5L|1|AW, 4V5P|1|AV, 4V5P|1|AW, 4V5P|1|CV, 4V5P|1|CW, 4V5Q|1|AV, 4V5Q|1|AW, 4V5Q|1|CV, 4V5Q|1|CW, 4V5R|1|AV, 4V5R|1|AW, 4V5R|1|CV, 4V5R|1|CW, 4V5S|1|AV, 4V5S|1|AW, 4V5S|1|CV, 4V5S|1|CW, 4V6F|1|BB, 4V6F|1|BC, 4V6F|1|BD, 4V6F|1|CB, 4V6F|1|CC, 4V6F|1|CD, 4V8J|1|AW, 4V8J|1|CW, 4V97|1|AW, 4V97|1|CW, 4V9C|1|AV, 4V9C|1|CV, 4V9D|1|AV, 4V9D|1|BV, 4V9H|1|AV, 4V9I|1|AW, 4V9I|1|CW, 4W2E|1|w, 4W2E|1|x, 4W2F|1|AW, 4W2F|1|AY, 4W2F|1|CW, 4W2F|1|CY, 4W2G|1|AW, 4W2G|1|AY, 4W2G|1|CW, 4W2G|1|CY, 4W2H|1|AY, 4W2H|1|CY, 4W2I|1|AW, 4W2I|1|AY, 4W2I|1|CW, 4W2I|1|CY(13) 3J46|1|a, 4V4Y|1|AB, 4V4Y|1|AC, 4V4Y|1|AD, 4V69|1|AW, 4V6K|1|BB, 4V6K|1|BE, 4V6L|1|AB, 4V6L|1|AE, 4V7C|1|AV, 4V7C|1|AW, 4V7D|1|BV, 4V7D|1|BW(12) 4WPO|1|BW, 4WPO|1|BY, 4WPO|1|DW, 4WPO|1|DY, 4WQF|1|BW, 4WQF|1|BY, 4WQF|1|DW, 4WQF|1|DY, 4WQU|1|BW, 4WQU|1|BY, 4WQU|1|DW, 4WQU|1|DY
NR_all_19951.1NR_all_19951.22.8(108) 1VY4|1|AW, 1VY4|1|AY, 1VY4|1|CW, 1VY4|1|CY, 1VY5|1|AW, 1VY5|1|AY, 1VY5|1|CW, 1VY5|1|CY, 1VY7|1|AY, 1VY7|1|CY, 2ZM5|1|C, 2ZM5|1|D, 2ZXU|1|C, 2ZXU|1|D, 3FOZ|1|C, 3FOZ|1|D, 3J46|1|a, 3L0U|1|A, 4P6F|1|QW, 4P6F|1|XW, 4V4I|1|z, 4V4Y|1|AB, 4V4Y|1|AC, 4V4Y|1|AD, 4V51|1|AW, 4V51|1|CW, 4V5C|1|AW, 4V5C|1|AY, 4V5C|1|CW, 4V5C|1|CY, 4V5D|1|AV, 4V5D|1|AW, 4V5D|1|AY, 4V5D|1|CV, 4V5D|1|CW, 4V5D|1|CY, 4V5E|1|AV, 4V5E|1|AW, 4V5E|1|CV, 4V5E|1|CW, 4V5G|1|AV, 4V5G|1|AW, 4V5G|1|CV, 4V5G|1|CW, 4V5J|1|AV, 4V5J|1|AW, 4V5J|1|CV, 4V5J|1|CW, 4V5L|1|AV, 4V5L|1|AW, 4V5P|1|AV, 4V5P|1|AW, 4V5P|1|CV, 4V5P|1|CW, 4V5Q|1|AV, 4V5Q|1|AW, 4V5Q|1|CV, 4V5Q|1|CW, 4V5R|1|AV, 4V5R|1|AW, 4V5R|1|CV, 4V5R|1|CW, 4V5S|1|AV, 4V5S|1|AW, 4V5S|1|CV, 4V5S|1|CW, 4V69|1|AW, 4V6F|1|BB, 4V6F|1|BC, 4V6F|1|BD, 4V6F|1|CB, 4V6F|1|CC, 4V6F|1|CD, 4V6K|1|BB, 4V6K|1|BE, 4V6L|1|AB, 4V6L|1|AE, 4V7C|1|AV, 4V7C|1|AW, 4V7D|1|BV, 4V7D|1|BW, 4V8J|1|AW, 4V8J|1|CW, 4V97|1|AW, 4V97|1|CW, 4V9C|1|AV, 4V9C|1|CV, 4V9D|1|AV, 4V9D|1|BV, 4V9H|1|AV, 4V9I|1|AW, 4V9I|1|CW, 4W2E|1|w, 4W2E|1|x, 4W2F|1|AW, 4W2F|1|AY, 4W2F|1|CW, 4W2F|1|CY, 4W2G|1|AW, 4W2G|1|AY, 4W2G|1|CW, 4W2G|1|CY, 4W2H|1|AY, 4W2H|1|CY, 4W2I|1|AW, 4W2I|1|AY, 4W2I|1|CW, 4W2I|1|CY(0) (12) 4WPO|1|BW, 4WPO|1|BY, 4WPO|1|DW, 4WPO|1|DY, 4WQF|1|BW, 4WQF|1|BY, 4WQF|1|DW, 4WQF|1|DY, 4WQU|1|BW, 4WQU|1|BY, 4WQU|1|DW, 4WQU|1|DY

Instances are ordered to put similar structures near each other. Select one instance to see its 3D structure. Selecting two or more instances will show their superposition, but only chains with identical numbers of observed nucleotides will superpose well. Large structures are slow to display; this tool is not designed for that.

#SViewPDBTitleMethodResolutionLength
14W2H|1|CYCrystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (co-crystallized), mRNA and deacylated tRNA in the P siteX-RAY DIFFRACTION2.75
21VY7|1|AYCrystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing short substrate-mimic Cytidine-Cytidine-Puromycin in the A site and acylated tRNA in the P site.X-RAY DIFFRACTION2.85
31VY7|1|CYCrystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing short substrate-mimic Cytidine-Cytidine-Puromycin in the A site and acylated tRNA in the P site.X-RAY DIFFRACTION2.85
44W2H|1|AYCrystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (co-crystallized), mRNA and deacylated tRNA in the P siteX-RAY DIFFRACTION2.718
51VY4|1|AYCrystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-RAY DIFFRACTION2.667
64W2E|1|xCrystal structure of Elongation Factor 4 (EF4/LepA) bound to the Thermus thermophilus 70S ribosomeX-RAY DIFFRACTION2.967
71VY5|1|AYCrystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-RAY DIFFRACTION2.5567
84W2I|1|AYCrystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.767
94W2F|1|AYCrystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.467
104W2G|1|AYCrystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.5567
114W2I|1|CYCrystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.766
121VY5|1|CYCrystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-RAY DIFFRACTION2.5566
131VY4|1|CYCrystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-RAY DIFFRACTION2.666
144W2G|1|CYCrystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.5566
154W2F|1|CYCrystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.466
164P6F|1|XWCrystal structure of the peptolide 12C bound to bacterial ribosomeX-RAY DIFFRACTION3.676
174V97|1|CWCrystal structure of the bacterial ribosome ram mutation G299A.X-RAY DIFFRACTION3.5276
184V8J|1|CWCrystal structure of the bacterial ribosome ram mutation G347U.X-RAY DIFFRACTION3.976
194V51|1|CWStructure of the Thermus thermophilus 70S ribosome complexed with mRNA, tRNA and paromomycinX-RAY DIFFRACTION2.876
204V51|1|AWStructure of the Thermus thermophilus 70S ribosome complexed with mRNA, tRNA and paromomycinX-RAY DIFFRACTION2.876
214V5C|1|CWStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-RAY DIFFRACTION3.376
224V5D|1|AWStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-RAY DIFFRACTION3.576
234V5D|1|CWStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-RAY DIFFRACTION3.576
244V5C|1|AWStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-RAY DIFFRACTION3.376
254V8J|1|AWCrystal structure of the bacterial ribosome ram mutation G347U.X-RAY DIFFRACTION3.976
264V97|1|AWCrystal structure of the bacterial ribosome ram mutation G299A.X-RAY DIFFRACTION3.5276
274P6F|1|QWCrystal structure of the peptolide 12C bound to bacterial ribosomeX-RAY DIFFRACTION3.676
284V5E|1|CWInsights into translational termination from the structure of RF2 bound to the ribosomeX-RAY DIFFRACTION3.4576
294V9I|1|AWCrystal structure of thermus thermophilus 70S in complex with tRNAs and mRNA containing a pseudouridine in a stop codonX-RAY DIFFRACTION3.376
304V9I|1|CWCrystal structure of thermus thermophilus 70S in complex with tRNAs and mRNA containing a pseudouridine in a stop codonX-RAY DIFFRACTION3.376
314V5E|1|AWInsights into translational termination from the structure of RF2 bound to the ribosomeX-RAY DIFFRACTION3.4576
324V5J|1|CWStructure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-RAY DIFFRACTION3.175
334V5J|1|AWStructure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-RAY DIFFRACTION3.175
344V69|1|AWTernary complex-bound E.coli 70S ribosome.ELECTRON MICROSCOPY6.776
354V5Q|1|CWThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
364V5S|1|CWThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
374V5G|1|AWThe crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-RAY DIFFRACTION3.676
384V5G|1|CWThe crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-RAY DIFFRACTION3.676
394V5R|1|AWThe crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
404V5R|1|CWThe crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
414V5P|1|CWThe crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
424V5P|1|AWThe crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
434V5S|1|AWThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
444V5Q|1|AWThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
454V5L|1|AWThe structure of EF-Tu and aminoacyl-tRNA bound to the 70S ribosome with a GTP analogX-RAY DIFFRACTION3.176
464V6F|1|CDElongation complex of the 70S ribosome with three tRNAs and mRNA.X-RAY DIFFRACTION3.175
474V6F|1|BDElongation complex of the 70S ribosome with three tRNAs and mRNA.X-RAY DIFFRACTION3.175
484V4Y|1|ADCrystal structure of the 70S Thermus thermophilus ribosome with translocated and rotated Shine-Dalgarno Duplex.X-RAY DIFFRACTION5.576
494V6L|1|AEStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY13.266
504V6K|1|BEStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY8.2566
514V4I|1|zCrystal Structure of a 70S Ribosome-tRNA Complex Reveals Functional Interactions and Rearrangements.X-RAY DIFFRACTION3.7167
524V5G|1|AVThe crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-RAY DIFFRACTION3.676
534V5G|1|CVThe crystal structure of the 70S ribosome bound to EF-Tu and tRNAX-RAY DIFFRACTION3.676
544V5D|1|AVStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-RAY DIFFRACTION3.575
554V5E|1|AVInsights into translational termination from the structure of RF2 bound to the ribosomeX-RAY DIFFRACTION3.4576
564V5S|1|CVThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
574V5Q|1|CVThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
584V5R|1|AVThe crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
594V5R|1|CVThe crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
604V5P|1|CVThe crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
614V5P|1|AVThe crystal structure of EF-Tu and A9C-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
624V5Q|1|AVThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a near- cognate codon on the 70S ribosomeX-RAY DIFFRACTION3.176
634V5S|1|AVThe crystal structure of EF-Tu and G24A-tRNA-Trp bound to a cognate codon on the 70S ribosome.X-RAY DIFFRACTION3.176
644V5L|1|AVThe structure of EF-Tu and aminoacyl-tRNA bound to the 70S ribosome with a GTP analogX-RAY DIFFRACTION3.176
654V5D|1|CVStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-RAY DIFFRACTION3.575
664V5E|1|CVInsights into translational termination from the structure of RF2 bound to the ribosomeX-RAY DIFFRACTION3.4576
674V5J|1|CVStructure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-RAY DIFFRACTION3.175
684V5J|1|AVStructure of the 70S ribosome bound to Release factor 2 and a substrate analog provides insights into catalysis of peptide releaseX-RAY DIFFRACTION3.175
694W2E|1|wCrystal structure of Elongation Factor 4 (EF4/LepA) bound to the Thermus thermophilus 70S ribosomeX-RAY DIFFRACTION2.968
704V6F|1|BCElongation complex of the 70S ribosome with three tRNAs and mRNA.X-RAY DIFFRACTION3.175
714V6F|1|CCElongation complex of the 70S ribosome with three tRNAs and mRNA.X-RAY DIFFRACTION3.175
724V9C|1|AVAllosteric control of the ribosome by small-molecule antibioticsX-RAY DIFFRACTION3.376
734V9D|1|BVStructures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-RAY DIFFRACTION376
744V4Y|1|ACCrystal structure of the 70S Thermus thermophilus ribosome with translocated and rotated Shine-Dalgarno Duplex.X-RAY DIFFRACTION5.576
754V4Y|1|ABCrystal structure of the 70S Thermus thermophilus ribosome with translocated and rotated Shine-Dalgarno Duplex.X-RAY DIFFRACTION5.576
763J46|1|aStructure of the SecY protein translocation channel in actionELECTRON MICROSCOPY10.175
774V6F|1|BBElongation complex of the 70S ribosome with three tRNAs and mRNA.X-RAY DIFFRACTION3.175
784V6F|1|CBElongation complex of the 70S ribosome with three tRNAs and mRNA.X-RAY DIFFRACTION3.175
794W2I|1|CWCrystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.765
801VY5|1|CWCrystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-RAY DIFFRACTION2.5564
814W2G|1|CWCrystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.5565
824W2F|1|CWCrystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.465
831VY4|1|CWCrystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-RAY DIFFRACTION2.664
844W2G|1|AWCrystal structure of the Thermus thermophilus 70S ribosome in complex with pactamycin (soaked), mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.5567
854W2F|1|AWCrystal structure of the Thermus thermophilus 70S ribosome in complex with amicoumacin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.467
861VY5|1|AWCrystal structure of the Thermus thermophilus 70S ribosome in the post-catalysis state of peptide bond formation containing dipeptydil-tRNA in the A site and deacylated tRNA in the P site.X-RAY DIFFRACTION2.5566
871VY4|1|AWCrystal structure of the Thermus thermophilus 70S ribosome in the pre-attack state of peptide bond formation containing acylated tRNA-substrates in the A and P sites.X-RAY DIFFRACTION2.666
884W2I|1|AWCrystal structure of the Thermus thermophilus 70S ribosome in complex with negamycin, mRNA and three deacylated tRNAs in the A, P and E sitesX-RAY DIFFRACTION2.767
894V5D|1|CYStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-RAY DIFFRACTION3.575
904V5C|1|AYStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-RAY DIFFRACTION3.375
914V5C|1|CYStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A-site tRNA, deacylated P-site tRNA, and E-site tRNA.X-RAY DIFFRACTION3.375
924V5D|1|AYStructure of the Thermus thermophilus 70S ribosome in complex with mRNA, paromomycin, acylated A- and P-site tRNAs, and E-site tRNA.X-RAY DIFFRACTION3.575
934V7C|1|AVStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA structure)ELECTRON MICROSCOPY7.676
944V7D|1|BVStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA*EF-G structure)ELECTRON MICROSCOPY7.676
954V7C|1|AWStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA structure)ELECTRON MICROSCOPY7.676
964V7D|1|BWStructure of the Ribosome with Elongation Factor G Trapped in the Pre-Translocation State (pre-translocation 70S*tRNA*EF-G structure)ELECTRON MICROSCOPY7.676
974V9D|1|AVStructures of the bacterial ribosome in classical and hybrid states of tRNA bindingX-RAY DIFFRACTION376
984V9H|1|AVCrystal structure of the ribosome bound to elongation factor G in the guanosine triphosphatase stateX-RAY DIFFRACTION2.8674
993L0U|1|AThe crystal structure of unmodified tRNAPhe from Escherichia coliX-RAY DIFFRACTION373
1004V9C|1|CVAllosteric control of the ribosome by small-molecule antibioticsX-RAY DIFFRACTION3.376
1012ZM5|1|DCrystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe)X-RAY DIFFRACTION2.5569
1022ZXU|1|DCrystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe) and DMASPPX-RAY DIFFRACTION2.7569
1032ZXU|1|CCrystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe) and DMASPPX-RAY DIFFRACTION2.7574
1042ZM5|1|CCrystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe)X-RAY DIFFRACTION2.5574
1053FOZ|1|CStructure of E. coli Isopentenyl-tRNA transferase in complex with E. coli tRNA(Phe)X-RAY DIFFRACTION2.574
1064V6K|1|BBStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY8.2566
1074V6L|1|ABStructural insights into cognate vs. near-cognate discrimination during decoding.ELECTRON MICROSCOPY13.266
1083FOZ|1|DStructure of E. coli Isopentenyl-tRNA transferase in complex with E. coli tRNA(Phe)X-RAY DIFFRACTION2.569

Heat map of mutual geometric discrepancy, in Angstroms per nucleotide. The ordering in the heat map is the same as in the table. The colorbar ranges from 0 to the maximum observed discrepancy. Click above the diagonal to select a range of structures, below the diagonal to select two structures.


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