#IFECompound(s)RNA source organismTitleMethodResolutionDate
11QA6|C (rep)CRYSTAL STRUCTURE OF A CONSERVED RIBOSOMAL PROTEIN-RNA COMPLEXX-RAY DIFFRACTION2.81999-05-25
21C04|EHaloarcula marismortuiIDENTIFICATION OF KNOWN PROTEIN AND RNA STRUCTURES IN A 5 A MAP OF THE LARGE RIBOSOMAL SUBUNIT FROM HALOARCULA MARISMORTUIX-RAY DIFFRACTION51999-08-31
31HC8|CEscherichia coliCRYSTAL STRUCTURE OF A CONSERVED RIBOSOMAL PROTEIN-RNA COMPLEXX-RAY DIFFRACTION2.82002-05-23
41MMS|CCrystal structure of the ribosomal PROTEIN L11-RNA complexX-RAY DIFFRACTION2.572000-04-17
51OLN|CThermotoga maritimaModel for thiostrepton antibiotic binding to L11 substrate from 50S ribosomal RNATHEORETICAL MODEL, SOLUTION NMR2003-09-11
61Y39|CCo-evolution of protein and RNA structures within a highly conserved ribosomal domainX-RAY DIFFRACTION2.82005-03-22
72JQ7|BEscherichia coliModel for thiostrepton binding to the ribosomal L11-RNASOLUTION NMR2007-07-03
83J0D|AEscherichia coliModels for the T. thermophilus ribosome recycling factor bound to the E. coli post-termination complexELECTRON MICROSCOPY11.12012-04-25

Release history

Release0.670.680.690.700.710.720.730.740.750.760.770.780.790.800.810.820.830.840.850.860.870.880.890.900.910.920.930.940.950.960.970.980.990.1000.1010.1020.1030.1040.1050.1060.1070.1080.1090.1101.01.11.21.31.41.51.61.71.81.91.101.111.121.131.141.151.161.171.181.191.201.211.221.231.241.251.261.271.281.291.301.311.321.331.341.351.361.371.381.391.401.411.421.431.441.451.461.471.481.491.501.511.521.531.541.551.561.571.581.591.601.611.621.631.641.651.661.671.681.691.701.711.721.731.741.751.761.771.781.791.801.811.821.831.841.851.861.871.881.89
Date2012-04-282012-05-052012-05-122012-05-192012-05-262012-06-022012-06-092012-06-162012-06-232012-06-302012-07-072012-07-142012-07-212012-07-282012-08-042012-08-112012-08-182012-08-252012-09-012012-09-082012-09-152012-09-222012-09-292012-10-062012-10-132012-10-202012-10-272012-11-032012-11-102012-11-172012-11-242012-12-012012-12-082012-12-152012-12-222012-12-292013-01-052013-01-122013-01-192013-01-262013-02-022013-02-092013-02-162013-02-232013-03-022013-03-092013-03-162013-03-232013-03-302013-04-062013-04-132013-04-202013-04-272013-05-042013-05-112013-05-182013-05-252013-06-012013-06-082013-06-152013-06-222013-06-292013-07-062013-07-132013-07-202013-07-272013-08-032013-08-102013-08-172013-08-242013-08-312013-09-072013-09-142013-09-212013-09-282013-10-052013-10-122013-10-192013-10-262013-11-092013-11-162013-11-232013-11-302013-12-072013-12-142013-12-212013-12-282014-01-042014-01-112014-01-182014-01-252014-02-012014-02-082014-02-152014-02-222014-03-012014-03-082014-03-172014-03-222014-03-292014-04-052014-04-122014-04-192014-04-262014-05-032014-05-102014-05-172014-05-312014-06-072014-06-132014-06-202014-06-272014-07-042014-07-182014-07-252014-08-012014-08-082014-08-152014-08-222014-08-292014-09-052014-09-122014-09-192014-09-262014-10-032014-10-102014-10-172014-10-242014-10-312014-11-072014-11-142014-11-212014-11-282014-12-05

Parents

This classParent classesRelease idIntersectionAdded to this classOnly in parent

Children

This class Descendant classesRelease idIntersectionOnly in this classAdded to child

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