#IFECompound(s)RNA source organismTitleMethodResolutionDate
14KZY|1|i (rep)18S Ribosomal RNAOryctolagus cuniculusRabbit 40S ribosomal subunit in complex with eIF1 and eIF1A.X-RAY DIFFRACTION7.012013-07-24
24KZZ|1|i18S Ribosomal RNAOryctolagus cuniculusRabbit 40S ribosomal subunit in complex with mRNA, initiator tRNA and eIF1AX-RAY DIFFRACTION7.032013-07-24
34KZX|1|i18S ribosomal RNAOryctolagus cuniculusRabbit 40S ribosomal subunit in complex with eIF1.X-RAY DIFFRACTION7.812013-07-24
47O7Y|1|A218S rRNAOryctolagus cuniculusRabbit 80S ribosome stalled close to the mutated SARS-CoV-2 slippery site by a pseudoknot (high resolution)ELECTRON MICROSCOPY2.22021-06-02
57O7Z|1|A218S rRNAOryctolagus cuniculusRabbit 80S ribosome stalled close to the mutated SARS-CoV-2 slippery site by a pseudoknot (classified for pseudoknot)ELECTRON MICROSCOPY2.42021-06-02
67JQB|1|ArRNAOryctolagus cuniculusSARS-CoV-2 Nsp1 and rabbit 40S ribosome complexELECTRON MICROSCOPY2.72020-12-02
76SGC|1|A118S ribosomal RNAOryctolagus cuniculusRabbit 80S ribosome stalled on a poly(A) tailELECTRON MICROSCOPY2.82019-12-04
87O80|1|A218S rRNAOryctolagus cuniculusRabbit 80S ribosome in complex with eRF1 and ABCE1 stalled at the STOP codon in the mutated SARS-CoV-2 slippery siteELECTRON MICROSCOPY2.92021-06-02
96YAL|1|218S ribosomal RNAOryctolagus cuniculusMammalian 48S late-stage initiation complex with beta-globin mRNAELECTRON MICROSCOPY32020-04-08
106R5Q|1|K18S ribosomal RNAOryctolagus cuniculusStructure of XBP1u-paused ribosome nascent chain complex (post-state)ELECTRON MICROSCOPY32019-07-10
117O81|1|A218S rRNAOryctolagus cuniculusRabbit 80S ribosome colliding in another ribosome stalled by the SARS-CoV-2 pseudoknotELECTRON MICROSCOPY3.12021-06-02
126ZVK|1|K318S RIBOSOMAL RNAOryctolagus cuniculusThe Halastavi arva virus (HalV) intergenic region IRES promotes translation by the simplest possible initiation mechanismELECTRON MICROSCOPY3.492020-12-23
136P5I|1|218S rRNAOryctolagus cuniculusStructure of a mammalian 80S ribosome in complex with the Israeli Acute Paralysis Virus IRES (Class 1)ELECTRON MICROSCOPY3.12019-09-18
146P5K|1|218S rRNAOryctolagus cuniculusStructure of a mammalian 80S ribosome in complex with the Israeli Acute Paralysis Virus IRES (Class 3)ELECTRON MICROSCOPY3.12019-09-18
156P5J|1|218S rRNAOryctolagus cuniculusStructure of a mammalian 80S ribosome in complex with the Israeli Acute Paralysis Virus IRES (Class 2)ELECTRON MICROSCOPY3.12019-09-18
166P4G|1|218S rRNAOryctolagus cuniculusStructure of a mammalian small ribosomal subunit in complex with the Israeli Acute Paralysis Virus IRES (Class 1)ELECTRON MICROSCOPY3.12019-09-18
176R6P|1|K18S rRNAOryctolagus cuniculusStructure of XBP1u-paused ribosome nascent chain complex (rotated state)ELECTRON MICROSCOPY3.12019-07-10
186P4H|1|218S rRNAOryctolagus cuniculusStructure of a mammalian small ribosomal subunit in complex with the Israeli Acute Paralysis Virus IRES (Class 2)ELECTRON MICROSCOPY3.22019-09-18
196P5N|1|218S rRNAOryctolagus cuniculusStructure of a mammalian 80S ribosome in complex with a single translocated Israeli Acute Paralysis Virus IRES and eRF1ELECTRON MICROSCOPY3.22019-09-25
206D9J|1|218S rRNAOryctolagus cuniculusMammalian 80S ribosome with a double translocated CrPV-IRES, P-sitetRNA and eRF1.ELECTRON MICROSCOPY3.22018-06-06
217JQC|1|ArRNAOryctolagus cuniculusSARS-CoV-2 Nsp1, CrPV IRES and rabbit 40S ribosome complexELECTRON MICROSCOPY3.32020-12-02
225LZS|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian ribosomal elongation complex with aminoacyl-tRNA, eEF1A, and didemnin BELECTRON MICROSCOPY3.312016-11-30
236W2T|1|a18S rRNAOryctolagus cuniculusStructure of the Cricket Paralysis Virus 5-UTR IRES (CrPV 5-UTR-IRES) bound to the small ribosomal subunit in the closed state (Class 2)ELECTRON MICROSCOPY3.362020-04-22
247A01|1|K318S RIBOSOMAL RNAOryctolagus cuniculusThe Halastavi arva virus intergenic region IRES promotes translation by the simplest possible initiation mechanismELECTRON MICROSCOPY3.62020-12-30
256MTD|1|918S rRNAOryctolagus cuniculusRabbit 80S ribosome with eEF2 and SERBP1 (unrotated state with 40S head swivel)ELECTRON MICROSCOPY3.32018-11-21
265LZV|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian ribosomal termination complex with accommodated eRF1(AAQ) and ABCE1.ELECTRON MICROSCOPY3.352016-11-30
276D90|1|218S rRNAOryctolagus cuniculusMammalian 80S ribosome with a double translocated CrPV-IRES, P-site tRNA and eRF1.ELECTRON MICROSCOPY3.22018-06-06
286YAN|1|218S ribosomal RNAOryctolagus cuniculusMammalian 48S late-stage translation initiation complex with histone 4 mRNAELECTRON MICROSCOPY3.482020-04-08
296MTC|1|918S rRNAOryctolagus cuniculusRabbit 80S ribosome with Z-site tRNA and IFRD2 (unrotated state)ELECTRON MICROSCOPY3.42018-11-21
306MTE|1|918S rRNAOryctolagus cuniculusRabbit 80S ribosome with eEF2 and SERBP1 (rotated state)ELECTRON MICROSCOPY3.42018-11-21
316W2S|1|A18S rRNAOryctolagus cuniculusStructure of the Cricket Paralysis Virus 5-UTR IRES (CrPV 5-UTR-IRES) bound to the small ribosomal subunit in the open state (Class 1)ELECTRON MICROSCOPY3.472020-04-22
326GZ5|1|B118S ribosomal RNAOryctolagus cuniculustRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-3 (TI-POST-3)ELECTRON MICROSCOPY3.52018-12-05
335LZZ|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian rescue complex with Pelota and Hbs1l (combined)ELECTRON MICROSCOPY3.472016-11-30
345LZW|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian rescue complex with Pelota and Hbs1l assembled on a truncated mRNA.ELECTRON MICROSCOPY3.532016-11-30
355LZX|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian rescue complex with Pelota and Hbs1l assembled on a UGA stop codon.ELECTRON MICROSCOPY3.672016-11-30
366GZ3|1|B118S ribosomal RNAOryctolagus cuniculustRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-1 (TI-POST-1)ELECTRON MICROSCOPY3.62018-12-05
376GZ4|1|B118S ribosomal RNAOryctolagus cuniculustRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-2 (TI-POST-2)ELECTRON MICROSCOPY3.62018-12-05
385LZT|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian ribosomal termination complex with eRF1 and eRF3.ELECTRON MICROSCOPY3.652016-11-30
396YAM|1|218S ribosomal RNAOryctolagus cuniculusMammalian 48S late-stage translation initiation complex (LS48S+eIF3 IC) with beta-globin mRNAELECTRON MICROSCOPY3.62020-04-08
406MTB|1|918S rRNAOryctolagus cuniculusRabbit 80S ribosome with P- and Z-site tRNAs (unrotated state)ELECTRON MICROSCOPY3.62018-11-21
416HCJ|1|A218S ribosomal RNAOryctolagus cuniculusStructure of the rabbit 80S ribosome on globin mRNA in the rotated state with A/P and P/E tRNAsELECTRON MICROSCOPY3.82018-10-17
426R6G|1|K18S ribosomal RNAOryctolagus cuniculusStructure of XBP1u-paused ribosome nascent chain complex with SRP.ELECTRON MICROSCOPY3.72019-07-10
435LZU|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian ribosomal termination complex with accommodated eRF1ELECTRON MICROSCOPY3.752016-11-30
446HCF|1|A118S ribosomal RNAOryctolagus cuniculusStructure of the rabbit 80S ribosome stalled on globin mRNA at the stop codonELECTRON MICROSCOPY3.92018-10-17
456R7Q|1|K18S ribosomal RNAOryctolagus cuniculusStructure of XBP1u-paused ribosome nascent chain complex with Sec61.ELECTRON MICROSCOPY3.92019-07-10
463JAH|1|918S ribosomal RNAOryctolagus cuniculusStructure of a mammalian ribosomal termination complex with ABCE1, eRF1(AAQ), and the UAG stop codonELECTRON MICROSCOPY3.452015-08-12
475LZY|1|918S ribosomal RNAOryctolagus cuniculusStructure of the mammalian rescue complex with Pelota and Hbs1l assembled on a polyadenylated mRNA.ELECTRON MICROSCOPY3.992016-11-30
485FLX|1|118S RRNAOryctolagus cuniculusMammalian 40S HCV-IRES complexELECTRON MICROSCOPY3.92015-12-23
493JAG|1|918S ribosomal RNAOryctolagus cuniculusStructure of a mammalian ribosomal termination complex with ABCE1, eRF1(AAQ), and the UAA stop codonELECTRON MICROSCOPY3.652015-08-12
503JAI|1|918S ribosomal RNAOryctolagus cuniculusStructure of a mammalian ribosomal termination complex with ABCE1, eRF1(AAQ), and the UGA stop codonELECTRON MICROSCOPY3.652015-08-12
515K0Y|1|A18S ribosomal RNAOryctolagus cuniculusm48S late-stage initiation complex, purified from rabbit reticulocytes lysates, displaying eIF2 ternary complex and eIF3 i and g subunits relocated to the intersubunit faceELECTRON MICROSCOPY5.82016-07-13
526HCQ|1|A218S ribosomal RNAOryctolagus cuniculusStructure of the rabbit collided di-ribosome (collided monosome)ELECTRON MICROSCOPY6.52018-10-17
536HCM|1|A118S ribosomal RNAOryctolagus cuniculusStructure of the rabbit collided di-ribosome (stalled monosome)ELECTRON MICROSCOPY6.82018-10-17
544UJE|1|B118S Ribosomal RNAOryctolagus cuniculusRegulation of the mammalian elongation cycle by 40S subunit rolling: a eukaryotic-specific ribosome rearrangementELECTRON MICROSCOPY6.92014-07-16
553JAN|1|S218S ribosomal RNAOryctolagus cuniculusStructure of the scanning state of the mammalian SRP-ribosome complexELECTRON MICROSCOPY3.752015-08-05
563JAJ|1|S218S ribosomal RNAOryctolagus cuniculusStructure of the engaged state of the mammalian SRP-ribosome complexELECTRON MICROSCOPY3.752015-08-05
574UJD|1|C118S Ribosomal RNAOryctolagus cuniculusmammalian 80S HCV-IRES initiation complex with eIF5B PRE-like stateELECTRON MICROSCOPY8.92014-07-30
584D61|1|118S RRNAOryctolagus cuniculusCryo-EM structures of ribosomal 80S complexes with termination factors and cricket paralysis virus IRES reveal the IRES in the translocated stateELECTRON MICROSCOPY92015-03-04
594D5L|1|118S RRNA 2Oryctolagus cuniculusCryo-EM structures of ribosomal 80S complexes with termination factors and cricket paralysis virus IRES reveal the IRES in the translocated stateELECTRON MICROSCOPY92015-02-04
604UJC|1|C118S RIBOSOMAL RNAOryctolagus cuniculusmammalian 80S HCV-IRES initiation complex with eIF5B POST-like stateELECTRON MICROSCOPY9.52014-07-30

Release history

Release3.1813.1823.1833.1843.185
Date2021-06-022021-06-092021-06-162021-06-232021-06-30

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
14UJE|1|B1Regulation of the mammalian elongation cycle by 40S subunit rolling: a eukaryotic-specific ribosome rearrangementELECTRON MICROSCOPY6.91742
24D5L|1|1Cryo-EM structures of ribosomal 80S complexes with termination factors and cricket paralysis virus IRES reveal the IRES in the translocated stateELECTRON MICROSCOPY91742
34D61|1|1Cryo-EM structures of ribosomal 80S complexes with termination factors and cricket paralysis virus IRES reveal the IRES in the translocated stateELECTRON MICROSCOPY91742
44UJD|1|C1mammalian 80S HCV-IRES initiation complex with eIF5B PRE-like stateELECTRON MICROSCOPY8.91742
54UJC|1|C1mammalian 80S HCV-IRES initiation complex with eIF5B POST-like stateELECTRON MICROSCOPY9.51742
64KZZ|1|iRabbit 40S ribosomal subunit in complex with mRNA, initiator tRNA and eIF1AX-RAY DIFFRACTION7.031797
74KZY|1|iRabbit 40S ribosomal subunit in complex with eIF1 and eIF1A.X-RAY DIFFRACTION7.011840
84KZX|1|iRabbit 40S ribosomal subunit in complex with eIF1.X-RAY DIFFRACTION7.811797
95K0Y|1|Am48S late-stage initiation complex, purified from rabbit reticulocytes lysates, displaying eIF2 ternary complex and eIF3 i and g subunits relocated to the intersubunit faceELECTRON MICROSCOPY5.81776
106YAM|1|2Mammalian 48S late-stage translation initiation complex (LS48S+eIF3 IC) with beta-globin mRNAELECTRON MICROSCOPY3.61742
116YAL|1|2Mammalian 48S late-stage initiation complex with beta-globin mRNAELECTRON MICROSCOPY31743
126YAN|1|2Mammalian 48S late-stage translation initiation complex with histone 4 mRNAELECTRON MICROSCOPY3.481743
137A01|1|K3The Halastavi arva virus intergenic region IRES promotes translation by the simplest possible initiation mechanismELECTRON MICROSCOPY3.61801
146ZVK|1|K3The Halastavi arva virus (HalV) intergenic region IRES promotes translation by the simplest possible initiation mechanismELECTRON MICROSCOPY3.491869
153JAH|1|9Structure of a mammalian ribosomal termination complex with ABCE1, eRF1(AAQ), and the UAG stop codonELECTRON MICROSCOPY3.451719
163JAG|1|9Structure of a mammalian ribosomal termination complex with ABCE1, eRF1(AAQ), and the UAA stop codonELECTRON MICROSCOPY3.651719
173JAI|1|9Structure of a mammalian ribosomal termination complex with ABCE1, eRF1(AAQ), and the UGA stop codonELECTRON MICROSCOPY3.651719
183JAN|1|S2Structure of the scanning state of the mammalian SRP-ribosome complexELECTRON MICROSCOPY3.751742
193JAJ|1|S2Structure of the engaged state of the mammalian SRP-ribosome complexELECTRON MICROSCOPY3.751742
206GZ5|1|B1tRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-3 (TI-POST-3)ELECTRON MICROSCOPY3.51708
217O7Y|1|A2Rabbit 80S ribosome stalled close to the mutated SARS-CoV-2 slippery site by a pseudoknot (high resolution)ELECTRON MICROSCOPY2.21688
227O7Z|1|A2Rabbit 80S ribosome stalled close to the mutated SARS-CoV-2 slippery site by a pseudoknot (classified for pseudoknot)ELECTRON MICROSCOPY2.41688
237O80|1|A2Rabbit 80S ribosome in complex with eRF1 and ABCE1 stalled at the STOP codon in the mutated SARS-CoV-2 slippery siteELECTRON MICROSCOPY2.91688
247O81|1|A2Rabbit 80S ribosome colliding in another ribosome stalled by the SARS-CoV-2 pseudoknotELECTRON MICROSCOPY3.11688
256R6P|1|KStructure of XBP1u-paused ribosome nascent chain complex (rotated state)ELECTRON MICROSCOPY3.11698
266R6G|1|KStructure of XBP1u-paused ribosome nascent chain complex with SRP.ELECTRON MICROSCOPY3.71698
276R5Q|1|KStructure of XBP1u-paused ribosome nascent chain complex (post-state)ELECTRON MICROSCOPY31698
286R7Q|1|KStructure of XBP1u-paused ribosome nascent chain complex with Sec61.ELECTRON MICROSCOPY3.91698
296MTC|1|9Rabbit 80S ribosome with Z-site tRNA and IFRD2 (unrotated state)ELECTRON MICROSCOPY3.41664
306MTB|1|9Rabbit 80S ribosome with P- and Z-site tRNAs (unrotated state)ELECTRON MICROSCOPY3.61664
315LZS|1|9Structure of the mammalian ribosomal elongation complex with aminoacyl-tRNA, eEF1A, and didemnin BELECTRON MICROSCOPY3.311697
325LZT|1|9Structure of the mammalian ribosomal termination complex with eRF1 and eRF3.ELECTRON MICROSCOPY3.651698
335LZV|1|9Structure of the mammalian ribosomal termination complex with accommodated eRF1(AAQ) and ABCE1.ELECTRON MICROSCOPY3.351698
345LZU|1|9Structure of the mammalian ribosomal termination complex with accommodated eRF1ELECTRON MICROSCOPY3.751698
355LZW|1|9Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a truncated mRNA.ELECTRON MICROSCOPY3.531698
365LZX|1|9Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a UGA stop codon.ELECTRON MICROSCOPY3.671698
375LZZ|1|9Structure of the mammalian rescue complex with Pelota and Hbs1l (combined)ELECTRON MICROSCOPY3.471698
385LZY|1|9Structure of the mammalian rescue complex with Pelota and Hbs1l assembled on a polyadenylated mRNA.ELECTRON MICROSCOPY3.991698
396SGC|1|A1Rabbit 80S ribosome stalled on a poly(A) tailELECTRON MICROSCOPY2.81697
407JQB|1|ASARS-CoV-2 Nsp1 and rabbit 40S ribosome complexELECTRON MICROSCOPY2.71697
416P5N|1|2Structure of a mammalian 80S ribosome in complex with a single translocated Israeli Acute Paralysis Virus IRES and eRF1ELECTRON MICROSCOPY3.21697
426D90|1|2Mammalian 80S ribosome with a double translocated CrPV-IRES, P-site tRNA and eRF1.ELECTRON MICROSCOPY3.21697
436HCM|1|A1Structure of the rabbit collided di-ribosome (stalled monosome)ELECTRON MICROSCOPY6.81732
446HCF|1|A1Structure of the rabbit 80S ribosome stalled on globin mRNA at the stop codonELECTRON MICROSCOPY3.91732
456HCQ|1|A2Structure of the rabbit collided di-ribosome (collided monosome)ELECTRON MICROSCOPY6.51740
466HCJ|1|A2Structure of the rabbit 80S ribosome on globin mRNA in the rotated state with A/P and P/E tRNAsELECTRON MICROSCOPY3.81740
477JQC|1|ASARS-CoV-2 Nsp1, CrPV IRES and rabbit 40S ribosome complexELECTRON MICROSCOPY3.31697
486P4H|1|2Structure of a mammalian small ribosomal subunit in complex with the Israeli Acute Paralysis Virus IRES (Class 2)ELECTRON MICROSCOPY3.21697
496P4G|1|2Structure of a mammalian small ribosomal subunit in complex with the Israeli Acute Paralysis Virus IRES (Class 1)ELECTRON MICROSCOPY3.11697
506P5K|1|2Structure of a mammalian 80S ribosome in complex with the Israeli Acute Paralysis Virus IRES (Class 3)ELECTRON MICROSCOPY3.11697
516P5I|1|2Structure of a mammalian 80S ribosome in complex with the Israeli Acute Paralysis Virus IRES (Class 1)ELECTRON MICROSCOPY3.11697
526P5J|1|2Structure of a mammalian 80S ribosome in complex with the Israeli Acute Paralysis Virus IRES (Class 2)ELECTRON MICROSCOPY3.11697
536MTE|1|9Rabbit 80S ribosome with eEF2 and SERBP1 (rotated state)ELECTRON MICROSCOPY3.41664
546MTD|1|9Rabbit 80S ribosome with eEF2 and SERBP1 (unrotated state with 40S head swivel)ELECTRON MICROSCOPY3.31692
556GZ4|1|B1tRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-2 (TI-POST-2)ELECTRON MICROSCOPY3.61708
566GZ3|1|B1tRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-1 (TI-POST-1)ELECTRON MICROSCOPY3.61708
575FLX|1|1Mammalian 40S HCV-IRES complexELECTRON MICROSCOPY3.91708
586W2T|1|aStructure of the Cricket Paralysis Virus 5-UTR IRES (CrPV 5-UTR-IRES) bound to the small ribosomal subunit in the closed state (Class 2)ELECTRON MICROSCOPY3.361697
596W2S|1|AStructure of the Cricket Paralysis Virus 5-UTR IRES (CrPV 5-UTR-IRES) bound to the small ribosomal subunit in the open state (Class 1)ELECTRON MICROSCOPY3.471697
606D9J|1|2Mammalian 80S ribosome with a double translocated CrPV-IRES, P-sitetRNA and eRF1.ELECTRON MICROSCOPY3.21697