RNA 3D Hub //

Equivalence class NR_all_83593.1 Obsolete

#IFEStandardized nameMoleculeOrganismSourceRfamTitleMethodRes. ÅDate
15AXM|1|P (rep)Transfer RNARNA (75-MER)Saccharomyces cerevisiaeEukaryaRF00005Crystal structure of Thg1 like protein (TLP) with tRNA(Phe)X-ray diffraction2.212016-08-03
21EVV|1|ATransfer RNAPHENYLALANINE TRANSFER RNASaccharomycesEukaryaRF00005CRYSTAL STRUCTURE OF YEAST PHENYLALANINE TRANSFER RNA AT 2.0 A RESOLUTIONX-ray diffraction22000-05-01
35AXN|1|PTransfer RNARNA (75-MER)Saccharomyces cerevisiaeEukaryaRF00005Crystal structure of Thg1 like protein (TLP) with tRNA(Phe) and GDPNPX-ray diffraction2.72016-08-03
41OB2|1|BTransfer RNATRANSFER-RNA, PHESaccharomyces cerevisiaeEukaryaRF00005E. coli elongation factor EF-Tu complexed with the antibiotic kirromycin, a GTP analog, and Phe-tRNAX-ray diffraction3.352004-05-27
56LVR|1|DTransfer RNAyeast phenylalanine tRNASaccharomyces cerevisiaeEukaryaRF00005Crystal structure of the PPR domain of Arabidopsis thaliana protein-only RNase P 1 (PRORP1) in complex with tRNAX-ray diffraction2.852020-08-12
63WC2|1|P76mer-tRNACrystal structure of C. albicans tRNA(His) guanylyltransferase (Thg1) with a tRNA(Phe)(GUG)X-ray diffraction3.642013-12-18
76LVR|1|BTransfer RNAyeast phenylalanine tRNASaccharomyces cerevisiaeEukaryaRF00005Crystal structure of the PPR domain of Arabidopsis thaliana protein-only RNase P 1 (PRORP1) in complex with tRNAX-ray diffraction2.852020-08-12
83WC2|1|Q76mer-tRNACrystal structure of C. albicans tRNA(His) guanylyltransferase (Thg1) with a tRNA(Phe)(GUG)X-ray diffraction3.642013-12-18
91SZ1|1|FT-RNA (76-MER)Mechanism of CCA-adding enzymes specificity revealed by crystal structures of ternary complexesX-ray diffraction6.212004-08-10
101SZ1|1|ET-RNA (76-MER)Mechanism of CCA-adding enzymes specificity revealed by crystal structures of ternary complexesX-ray diffraction6.212004-08-10
114TNA|1|ATransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005FURTHER REFINEMENT OF THE STRUCTURE OF YEAST T-RNA-PHEX-ray diffraction2.51978-04-12
121EHZ|1|ATransfer RNATRANSFER RNA (PHE)Saccharomyces cerevisiaeEukaryaRF00005The crystal structure of yeast phenylalanine tRNA at 1.93 A resolutionX-ray diffraction1.932000-10-02
136XZ7|1|gTransfer RNAfMet-Phe-tRNA(Phe)Saccharomyces cerevisiaeEukaryaRF00005E. coli 50S ribosomal subunit in complex with dirithromycin, fMet-Phe-tRNA(Phe) and deacylated tRNA(iMet).Electron microscopy2.12020-07-22
141I9V|1|ATransfer RNAPHENYLALANINE TRANSFER RNASaccharomyces cerevisiaeEukaryaRF00005CRYSTAL STRUCTURE ANALYSIS OF A TRNA-NEOMYCIN COMPLEXX-ray diffraction2.62001-06-04
156XZB|1|g2Transfer RNAfMet-Phe-tRNA(Phe)Saccharomyces cerevisiaeEukaryaRF00005E. coli 70S ribosome in complex with dirithromycin, fMet-Phe-tRNA(Phe) and deacylated tRNA(iMet) (focused classification).Electron microscopy2.542020-11-04
166XIR|1|AZTransfer RNATransfer RNASaccharomyces cerevisiaeEukaryaRF00005Cryo-EM Structure of K63 Ubiquitinated Yeast Translocating Ribosome under Oxidative StressElectron microscopy3.22020-08-26
176XIR|1|AXTransfer RNATransfer RNASaccharomyces cerevisiaeEukaryaRF00005Cryo-EM Structure of K63 Ubiquitinated Yeast Translocating Ribosome under Oxidative StressElectron microscopy3.22020-08-26
186GZ5|1|BwTransfer RNAE/E-site-tRNA, mRNASaccharomyces cerevisiaeEukaryaRF00005tRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-3 (TI-POST-3)Electron microscopy3.52018-12-05
191TN1|1|ATransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005CRYSTALLOGRAPHIC AND BIOCHEMICAL INVESTIGATION OF THE LEAD(II)-CATALYZED HYDROLYSIS OF YEAST PHENYLALANINE TRNAX-ray diffraction31987-01-15
201TN2|1|ATransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005CRYSTALLOGRAPHIC AND BIOCHEMICAL INVESTIGATION OF THE LEAD(II)-CATALYZED HYDROLYSIS OF YEAST PHENYLALANINE T-RNAX-ray diffraction31986-10-24
216GZ3|1|BwTransfer RNAmRNA, pe/E-site-tRNASaccharomyces cerevisiaeEukaryaRF00005tRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-1 (TI-POST-1)Electron microscopy3.62018-12-05
221TTT|1|FTRANSFER RIBONUCLEIC ACID (YEAST, PHE)Phe-tRNA, elongation factoR EF-TU:GDPNP ternary complexX-ray diffraction2.71996-12-23
235M1J|1|A3Transfer RNAnonstop mRNA, yeast Phe-tRNA-PheSaccharomyces cerevisiaeEukaryaRF00005Nonstop ribosomal complex bound with Dom34 and Hbs1Electron microscopy3.32017-01-18
244TRA|1|ATransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005RESTRAINED REFINEMENT OF TWO CRYSTALLINE FORMS OF YEAST ASPARTIC ACID AND PHENYLALANINE TRANSFER RNA CRYSTALSX-ray diffraction31987-11-06
256TNA|1|ATransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005CRYSTAL STRUCTURE OF YEAST PHENYLALANINE T-RNA. I.CRYSTALLOGRAPHIC REFINEMENTX-ray diffraction2.71979-01-16
266GQV|1|AYTransfer RNAMessenger RNA, Transfer RNA - PheSaccharomyces cerevisiaeEukaryaRF00005Cryo-EM recosntruction of yeast 80S ribosome in complex with mRNA, tRNA and eEF2 (GMPPCP)Electron microscopy42018-07-11
271TTT|1|DTRANSFER RIBONUCLEIC ACID (YEAST, PHE)Phe-tRNA, elongation factoR EF-TU:GDPNP ternary complexX-ray diffraction2.71996-12-23
281TTT|1|ETRANSFER RIBONUCLEIC ACID (YEAST, PHE)Phe-tRNA, elongation factoR EF-TU:GDPNP ternary complexX-ray diffraction2.71996-12-23
296GQB|1|AXTransfer RNAMessenger RNA, Transfer RNA - PheSaccharomyces cerevisiaeEukaryaRF00005Cryo-EM reconstruction of yeast 80S ribosome in complex with mRNA, tRNA and eEF2 (GDP+AlF4/sordarin)Electron microscopy3.92018-07-11
306XIQ|1|AXTransfer RNATransfer RNASaccharomyces cerevisiaeEukaryaRF00005Cryo-EM Structure of K63R Ubiquitin Mutant Ribosome under Oxidative StressElectron microscopy4.22020-08-26
316XIQ|1|AZTransfer RNATransfer RNASaccharomyces cerevisiaeEukaryaRF00005Cryo-EM Structure of K63R Ubiquitin Mutant Ribosome under Oxidative StressElectron microscopy4.22020-08-26
326GQ1|1|AXTransfer RNAMessenger RNA, Transfer RNA - PheSaccharomyces cerevisiaeEukaryaRF00005Cryo-EM reconstruction of yeast 80S ribosome in complex with mRNA, tRNA and eEF2 (GMPPCP/sordarin)Electron microscopy4.42018-07-11
331TRA|1|ATransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005RESTRAINED REFINEMENT OF THE MONOCLINIC FORM OF YEAST PHENYLALANINE TRANSFER RNA. TEMPERATURE FACTORS AND DYNAMICS, COORDINATED WATERS, AND BASE-PAIR PROPELLER TWIST ANGLESX-ray diffraction31986-07-14
341JGQ|1|CMESSENGER RNA MF36, tRNA(Phe)The Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGQ, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-ray diffraction52001-07-20
351JGQ|1|BtRNA(Phe)The Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGQ, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-ray diffraction52001-07-20
364V42|1|ACA- AND P-SITE MESSENGER RNA CODONS, TRNA(PHE)Crystal structure of the ribosome at 5.5 A resolution.X-ray diffraction5.52014-07-09
374V42|1|ABA- AND P-SITE MESSENGER RNA CODONS, TRNA(PHE)Crystal structure of the ribosome at 5.5 A resolution.X-ray diffraction5.52014-07-09
381JGO|1|CMESSENGER RNA MK27, tRNA(Phe)The Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGO, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-ray diffraction5.62001-07-20
391JGO|1|BMESSENGER RNA MK27, tRNA(Phe)The Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGO, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-ray diffraction5.62001-07-20
404V69|1|AYA/T-site tRNA Phe, mRNATernary complex-bound E.coli 70S ribosome.Electron microscopy6.72014-07-09
411JGP|1|CMESSENGER RNA MV36, tRNA(Phe)The Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGP, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-ray diffraction72001-07-20
421JGP|1|BMESSENGER RNA MV36, tRNA(Phe)The Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGP, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-ray diffraction72001-07-20
431LS2|1|BTransfer RNAPhenylalanine transfer RNASaccharomyces cerevisiaeEukaryaRF00005Fitting of EF-Tu and tRNA in the Low Resolution Cryo-EM Map of an EF-Tu Ternary Complex (GDP and Kirromycin) Bound to E. coli 70S RibosomeElectron microscopy16.82002-06-26
441FCW|1|ATransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005TRNA POSITIONS DURING THE ELONGATION CYCLEElectron microscopy172000-08-11
451FCW|1|DTransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005TRNA POSITIONS DURING THE ELONGATION CYCLEElectron microscopy172000-08-11
461FCW|1|BTransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005TRNA POSITIONS DURING THE ELONGATION CYCLEElectron microscopy172000-08-11
471FCW|1|ETransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005TRNA POSITIONS DURING THE ELONGATION CYCLEElectron microscopy172000-08-11
481FCW|1|CTransfer RNATRNAPHESaccharomyces cerevisiaeEukaryaRF00005TRNA POSITIONS DURING THE ELONGATION CYCLEElectron microscopy172000-08-11

Release history

Release3.151
Date2020-11-04

Parents

This classParent classesRelease idIntersectionAdded to this classOnly in parent
NR_all_83593.1NR_all_06843.23.151(17) 1EVV|1|A, 1JGO|1|B, 1JGO|1|C, 1JGP|1|B, 1JGP|1|C, 1JGQ|1|B, 1JGQ|1|C, 1SZ1|1|E, 1SZ1|1|F, 1TTT|1|D, 1TTT|1|E, 1TTT|1|F, 3WC2|1|P, 3WC2|1|Q, 4V42|1|AB, 4V42|1|AC, 4V69|1|AY(31) 1EHZ|1|A, 1FCW|1|A, 1FCW|1|B, 1FCW|1|C, 1FCW|1|D, 1FCW|1|E, 1I9V|1|A, 1LS2|1|B, 1OB2|1|B, 1TN1|1|A, 1TN2|1|A, 1TRA|1|A, 4TNA|1|A, 4TRA|1|A, 5AXM|1|P, 5AXN|1|P, 5M1J|1|A3, 6GQ1|1|AX, 6GQB|1|AX, 6GQV|1|AY, 6GZ3|1|Bw, 6GZ5|1|Bw, 6LVR|1|B, 6LVR|1|D, 6TNA|1|A, 6XIQ|1|AX, 6XIQ|1|AZ, 6XIR|1|AX, 6XIR|1|AZ, 6XZ7|1|g, 6XZB|1|g2(30) 1MJ1|1|C, 1MJ1|1|D, 1ML5|1|B, 1ZO1|1|F, 1ZO3|1|A, 1ZO3|1|B, 3DEG|1|A, 3EP2|1|Y, 3EQ3|1|Y, 4V48|1|A6, 4V49|1|AV, 4V49|1|AW, 4V4R|1|AV, 4V4R|1|AW, 4V4S|1|AV, 4V4S|1|AW, 4V4T|1|AV, 4V4T|1|AW, 4V4V|1|AU, 4V4V|1|AV, 4V4V|1|AW, 4V4W|1|AU, 4V4W|1|AV, 4V4W|1|AW, 4V65|1|AA, 4V65|1|AE, 4V65|1|AP, 4V66|1|AA, 4V66|1|AE, 4V66|1|AP
NR_all_83593.1NR_all_30153.83.151(30) 1EHZ|1|A, 1FCW|1|A, 1FCW|1|B, 1FCW|1|C, 1FCW|1|D, 1FCW|1|E, 1I9V|1|A, 1LS2|1|B, 1OB2|1|B, 1TN1|1|A, 1TN2|1|A, 1TRA|1|A, 4TNA|1|A, 4TRA|1|A, 5AXM|1|P, 5AXN|1|P, 5M1J|1|A3, 6GQ1|1|AX, 6GQB|1|AX, 6GQV|1|AY, 6GZ3|1|Bw, 6GZ5|1|Bw, 6LVR|1|B, 6LVR|1|D, 6TNA|1|A, 6XIQ|1|AX, 6XIQ|1|AZ, 6XIR|1|AX, 6XIR|1|AZ, 6XZ7|1|g(18) 1EVV|1|A, 1JGO|1|B, 1JGO|1|C, 1JGP|1|B, 1JGP|1|C, 1JGQ|1|B, 1JGQ|1|C, 1SZ1|1|E, 1SZ1|1|F, 1TTT|1|D, 1TTT|1|E, 1TTT|1|F, 3WC2|1|P, 3WC2|1|Q, 4V42|1|AB, 4V42|1|AC, 4V69|1|AY, 6XZB|1|g2(0)

Children

This class Descendant classesRelease idIntersectionOnly in this classAdded to child
NR_all_83593.1NR_all_83593.23.152(48) 1EHZ|1|A, 1EVV|1|A, 1FCW|1|A, 1FCW|1|B, 1FCW|1|C, 1FCW|1|D, 1FCW|1|E, 1I9V|1|A, 1JGO|1|B, 1JGO|1|C, 1JGP|1|B, 1JGP|1|C, 1JGQ|1|B, 1JGQ|1|C, 1LS2|1|B, 1OB2|1|B, 1SZ1|1|E, 1SZ1|1|F, 1TN1|1|A, 1TN2|1|A, 1TRA|1|A, 1TTT|1|D, 1TTT|1|E, 1TTT|1|F, 3WC2|1|P, 3WC2|1|Q, 4TNA|1|A, 4TRA|1|A, 4V42|1|AB, 4V42|1|AC, 4V69|1|AY, 5AXM|1|P, 5AXN|1|P, 5M1J|1|A3, 6GQ1|1|AX, 6GQB|1|AX, 6GQV|1|AY, 6GZ3|1|Bw, 6GZ5|1|Bw, 6LVR|1|B, 6LVR|1|D, 6TNA|1|A, 6XIQ|1|AX, 6XIQ|1|AZ, 6XIR|1|AX, 6XIR|1|AZ, 6XZ7|1|g, 6XZB|1|g2(0) (2) 1QZA|1|B, 1QZB|1|B

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
14V69|1|AYTernary complex-bound E.coli 70S ribosome.ELECTRON MICROSCOPY6.776
21TTT|1|FPhe-tRNA, elongation factoR EF-TU:GDPNP ternary complexX-RAY DIFFRACTION2.762
31TTT|1|EPhe-tRNA, elongation factoR EF-TU:GDPNP ternary complexX-RAY DIFFRACTION2.762
41OB2|1|BE. coli elongation factor EF-Tu complexed with the antibiotic kirromycin, a GTP analog, and Phe-tRNAX-RAY DIFFRACTION3.3563
51TTT|1|DPhe-tRNA, elongation factoR EF-TU:GDPNP ternary complexX-RAY DIFFRACTION2.762
66XZ7|1|gE. coli 50S ribosomal subunit in complex with dirithromycin, fMet-Phe-tRNA(Phe) and deacylated tRNA(iMet).ELECTRON MICROSCOPY2.161
76XZB|1|g2E. coli 70S ribosome in complex with dirithromycin, fMet-Phe-tRNA(Phe) and deacylated tRNA(iMet) (focused classification).ELECTRON MICROSCOPY2.5461
85M1J|1|A3Nonstop ribosomal complex bound with Dom34 and Hbs1ELECTRON MICROSCOPY3.362
94V42|1|ACCrystal structure of the ribosome at 5.5 A resolution.X-RAY DIFFRACTION5.562
101JGO|1|CThe Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGO, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-RAY DIFFRACTION5.662
111JGP|1|CThe Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGP, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-RAY DIFFRACTION762
121JGQ|1|CThe Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGQ, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-RAY DIFFRACTION562
133WC2|1|QCrystal structure of C. albicans tRNA(His) guanylyltransferase (Thg1) with a tRNA(Phe)(GUG)X-RAY DIFFRACTION3.6473
143WC2|1|PCrystal structure of C. albicans tRNA(His) guanylyltransferase (Thg1) with a tRNA(Phe)(GUG)X-RAY DIFFRACTION3.6474
151SZ1|1|EMechanism of CCA-adding enzymes specificity revealed by crystal structures of ternary complexesX-RAY DIFFRACTION6.2162
161SZ1|1|FMechanism of CCA-adding enzymes specificity revealed by crystal structures of ternary complexesX-RAY DIFFRACTION6.2162
171JGQ|1|BThe Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGQ, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-RAY DIFFRACTION562
181JGO|1|BThe Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGO, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-RAY DIFFRACTION5.662
191JGP|1|BThe Path of Messenger RNA Through the Ribosome. THIS FILE, 1JGP, CONTAINS THE 30S RIBOSOME SUBUNIT, THREE TRNA, AND MRNA MOLECULES. 50S RIBOSOME SUBUNIT IS IN THE FILE 1GIYX-RAY DIFFRACTION762
204V42|1|ABCrystal structure of the ribosome at 5.5 A resolution.X-RAY DIFFRACTION5.562
211I9V|1|ACRYSTAL STRUCTURE ANALYSIS OF A TRNA-NEOMYCIN COMPLEXX-RAY DIFFRACTION2.674
221EVV|1|ACRYSTAL STRUCTURE OF YEAST PHENYLALANINE TRANSFER RNA AT 2.0 A RESOLUTIONX-RAY DIFFRACTION262
234TRA|1|ARESTRAINED REFINEMENT OF TWO CRYSTALLINE FORMS OF YEAST ASPARTIC ACID AND PHENYLALANINE TRANSFER RNA CRYSTALSX-RAY DIFFRACTION362
241FCW|1|ETRNA POSITIONS DURING THE ELONGATION CYCLEELECTRON MICROSCOPY1762
251FCW|1|BTRNA POSITIONS DURING THE ELONGATION CYCLEELECTRON MICROSCOPY1762
261FCW|1|ATRNA POSITIONS DURING THE ELONGATION CYCLEELECTRON MICROSCOPY1762
271FCW|1|CTRNA POSITIONS DURING THE ELONGATION CYCLEELECTRON MICROSCOPY1762
281FCW|1|DTRNA POSITIONS DURING THE ELONGATION CYCLEELECTRON MICROSCOPY1762
296TNA|1|ACRYSTAL STRUCTURE OF YEAST PHENYLALANINE T-RNA. I.CRYSTALLOGRAPHIC REFINEMENTX-RAY DIFFRACTION2.762
301EHZ|1|AThe crystal structure of yeast phenylalanine tRNA at 1.93 A resolutionX-RAY DIFFRACTION1.9362
311TRA|1|ARESTRAINED REFINEMENT OF THE MONOCLINIC FORM OF YEAST PHENYLALANINE TRANSFER RNA. TEMPERATURE FACTORS AND DYNAMICS, COORDINATED WATERS, AND BASE-PAIR PROPELLER TWIST ANGLESX-RAY DIFFRACTION362
324TNA|1|AFURTHER REFINEMENT OF THE STRUCTURE OF YEAST T-RNA-PHEX-RAY DIFFRACTION2.562
331TN1|1|ACRYSTALLOGRAPHIC AND BIOCHEMICAL INVESTIGATION OF THE LEAD(II)-CATALYZED HYDROLYSIS OF YEAST PHENYLALANINE TRNAX-RAY DIFFRACTION362
341TN2|1|ACRYSTALLOGRAPHIC AND BIOCHEMICAL INVESTIGATION OF THE LEAD(II)-CATALYZED HYDROLYSIS OF YEAST PHENYLALANINE T-RNAX-RAY DIFFRACTION362
355AXN|1|PCrystal structure of Thg1 like protein (TLP) with tRNA(Phe) and GDPNPX-RAY DIFFRACTION2.765
365AXM|1|PCrystal structure of Thg1 like protein (TLP) with tRNA(Phe)X-RAY DIFFRACTION2.2172
376LVR|1|BCrystal structure of the PPR domain of Arabidopsis thaliana protein-only RNase P 1 (PRORP1) in complex with tRNAX-RAY DIFFRACTION2.8558
386LVR|1|DCrystal structure of the PPR domain of Arabidopsis thaliana protein-only RNase P 1 (PRORP1) in complex with tRNAX-RAY DIFFRACTION2.8558
396GZ5|1|BwtRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-3 (TI-POST-3)ELECTRON MICROSCOPY3.576
406GZ3|1|BwtRNA translocation by the eukaryotic 80S ribosome and the impact of GTP hydrolysis, Translocation-intermediate-POST-1 (TI-POST-1)ELECTRON MICROSCOPY3.676
416GQB|1|AXCryo-EM reconstruction of yeast 80S ribosome in complex with mRNA, tRNA and eEF2 (GDP+AlF4/sordarin)ELECTRON MICROSCOPY3.976
426GQ1|1|AXCryo-EM reconstruction of yeast 80S ribosome in complex with mRNA, tRNA and eEF2 (GMPPCP/sordarin)ELECTRON MICROSCOPY4.476
436GQV|1|AYCryo-EM recosntruction of yeast 80S ribosome in complex with mRNA, tRNA and eEF2 (GMPPCP)ELECTRON MICROSCOPY476
446XIR|1|AZCryo-EM Structure of K63 Ubiquitinated Yeast Translocating Ribosome under Oxidative StressELECTRON MICROSCOPY3.273
456XIR|1|AXCryo-EM Structure of K63 Ubiquitinated Yeast Translocating Ribosome under Oxidative StressELECTRON MICROSCOPY3.273
466XIQ|1|AZCryo-EM Structure of K63R Ubiquitin Mutant Ribosome under Oxidative StressELECTRON MICROSCOPY4.276
476XIQ|1|AXCryo-EM Structure of K63R Ubiquitin Mutant Ribosome under Oxidative StressELECTRON MICROSCOPY4.276
481LS2|1|BFitting of EF-Tu and tRNA in the Low Resolution Cryo-EM Map of an EF-Tu Ternary Complex (GDP and Kirromycin) Bound to E. coli 70S RibosomeELECTRON MICROSCOPY16.876

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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