PDB code | Main view | Title | 1c04 | | IDENTIFICATION OF KNOWN PROTEIN AND RNA STRUCTURES IN A 5 A MAP OF THE LARGE RIBOSOMAL SUBUNIT FROM HALOARCULA MARISMORTUI |
1ffk | | CRYSTAL STRUCTURE OF THE LARGE RIBOSOMAL SUBUNIT FROM HALOARCULA MARISMORTUI AT 2.4 ANGSTROM RESOLUTION |
1jj2 | | Fully Refined Crystal Structure of the Haloarcula marismortui Large Ribosomal Subunit at 2.4 Angstrom Resolution |
1k73 | | Co-crystal Structure of Anisomycin Bound to the 50S Ribosomal Subunit |
1k8a | | Co-crystal structure of Carbomycin A bound to the 50S ribosomal subunit of Haloarcula marismortui |
1k9m | | Co-crystal structure of tylosin bound to the 50S ribosomal subunit of Haloarcula marismortui |
1kc8 | | Co-crystal Structure of Blasticidin S Bound to the 50S Ribosomal Subunit |
1kd1 | | Co-crystal Structure of Spiramycin bound to the 50S Ribosomal Subunit of Haloarcula marismortui |
1kqs | | The Haloarcula marismortui 50S Complexed with a Pretranslocational Intermediate in Protein Synthesis |
1m1k | | Co-crystal structure of azithromycin bound to the 50S ribosomal subunit of Haloarcula marismortui |
1m90 | | Co-crystal structure of CCA-Phe-caproic acid-biotin and sparsomycin bound to the 50S ribosomal subunit |
1ml5 | | Structure of the E. coli ribosomal termination complex with release factor 2 |
1n8r | | Structure of large ribosomal subunit in complex with virginiamycin M |
1nji | | Structure of chloramphenicol bound to the 50S ribosomal subunit |
1nkw | | Crystal Structure Of The Large Ribosomal Subunit From Deinococcus Radiodurans |
1nwx | | COMPLEX OF THE LARGE RIBOSOMAL SUBUNIT FROM DEINOCOCCUS RADIODURANS WITH ABT-773 |
1nwy | | COMPLEX OF THE LARGE RIBOSOMAL SUBUNIT FROM DEINOCOCCUS RADIODURANS WITH AZITHROMYCIN |
1q7y | | Crystal Structure of CCdAP-Puromycin bound at the Peptidyl transferase center of the 50S ribosomal subunit |
1q81 | | Crystal Structure of minihelix with 3' puromycin bound to A-site of the 50S ribosomal subunit. |
1q82 | | Crystal Structure of CC-Puromycin bound to the A-site of the 50S ribosomal subunit |
1q86 | | Crystal structure of CCA-Phe-cap-biotin bound simultaneously at half occupancy to both the A-site and P-site of the the 50S ribosomal Subunit. |
1qvf | | Structure of a deacylated tRNA minihelix bound to the E site of the large ribosomal subunit of Haloarcula marismortui |
1qvg | | Structure of CCA oligonucleotide bound to the tRNA binding sites of the large ribosomal subunit of Haloarcula marismortui |
1rl2 | | RIBOSOMAL PROTEIN L2 RNA-BINDING DOMAIN FROM BACILLUS STEAROTHERMOPHILUS |
1s72 | | REFINED CRYSTAL STRUCTURE OF THE HALOARCULA MARISMORTUI LARGE RIBOSOMAL SUBUNIT AT 2.4 ANGSTROM RESOLUTION |
1sm1 | | COMPLEX OF THE LARGE RIBOSOMAL SUBUNIT FROM DEINOCOCCUS RADIODURANS WITH QUINUPRISTIN AND DALFOPRISTIN |
1vq4 | | The structure of the transition state analogue ""DAA"" bound to the large ribosomal subunit of Haloarcula marismortui |
1vq5 | | The structure of the transition state analogue ""RAA"" bound to the large ribosomal subunit of haloarcula marismortui |
1vq6 | | The structure of c-hpmn and CCA-PHE-CAP-BIO bound to the large ribosomal subunit of haloarcula marismortui |
1vq7 | | The structure of the transition state analogue ""DCA"" bound to the large ribosomal subunit of haloarcula marismortui |
1vq8 | | The structure of CCDA-PHE-CAP-BIO and the antibiotic sparsomycin bound to the large ribosomal subunit of haloarcula marismortui |
1vq9 | | The structure of CCA-PHE-CAP-BIO and the antibiotic sparsomycin bound to the large ribosomal subunit of haloarcula marismortui |
1vqk | | The structure of CCDA-PHE-CAP-BIO bound to the a site of the ribosomal subunit of haloarcula marismortui |
1vql | | The structure of the transition state analogue ""DCSN"" bound to the large ribosomal subunit of haloarcula marismortui |
1vqm | | The structure of the transition state analogue ""DAN"" bound to the large ribosomal subunit of haloarcula marismortui |
1vqn | | The structure of CC-HPMN AND CCA-PHE-CAP-BIO bound to the large ribosomal subunit of haloarcula marismortui |
1vqo | | The structure of CCPMN bound to the large ribosomal subunit haloarcula marismortui |
1vqp | | The structure of the transition state analogue ""RAP"" bound to the large ribosomal subunit of haloarcula marismortui |
1vvj | | 1VVJ |
1vy4 | | 1VY4 |
1vy5 | | 1VY5 |
1vy6 | | 1VY6 |
1vy7 | | 1VY7 |
1w2b | | Trigger Factor ribosome binding domain in complex with 50S |
1xbp | | Inhibition of peptide bond formation by pleuromutilins: The structure of the 50S ribosomal subunit from Deinococcus radiodurans in complex with Tiamulin |
1yhq | | Crystal Structure Of Azithromycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui |
1yi2 | | Crystal Structure Of Erythromycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui |
1yij | | Crystal Structure Of Telithromycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui |
1yit | | Crystal Structure Of Virginiamycin M and S Bound To The 50S Ribosomal Subunit Of Haloarcula Marismortui |
1yj9 | | Crystal Structure Of The Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui Containing a three residue deletion in L22 |
1yjn | | Crystal Structure Of Clindamycin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui |
1yjw | | Crystal Structure Of Quinupristin Bound To The G2099A Mutant 50S Ribosomal Subunit Of Haloarcula Marismortui |
2ftc | | Structural Model for the Large Subunit of the Mammalian Mitochondrial Ribosome |
2j28 | | Model of E. coli SRP bound to 70S RNCs |
2otj | | 13-deoxytedanolide bound to the large subunit of Haloarcula marismortui |
2otl | | Girodazole bound to the large subunit of Haloarcula marismortui |
2qa4 | | A more complete structure of the the L7/L12 stalk of the Haloarcula marismortui 50S large ribosomal subunit |
2qex | | Negamycin Binds to the Wall of the Nascent Chain Exit Tunnel of the 50S Ribosomal Subunit |
2rdo | | 50S subunit with EF-G(GDPNP) and RRF bound |
2zjp | | Thiopeptide antibiotic Nosiheptide bound to the large ribosomal subunit of Deinococcus radiodurans |
2zjq | | Interaction of L7 with L11 induced by Microccocin binding to the Deinococcus radiodurans 50S subunit |
2zjr | | Refined native structure of the large ribosomal subunit (50S) from Deinococcus radiodurans |
3bbx | | The Hsp15 protein fitted into the low resolution Cryo-EM map of the 50S.nc-tRNA.Hsp15 complex |
3cc2 | | The Refined Crystal Structure of the Haloarcula Marismortui Large Ribosomal Subunit at 2.4 Angstrom Resolution with rrnA Sequence for the 23S rRNA and Genome-derived Sequences for r-Proteins |
3cc4 | | Co-crystal Structure of Anisomycin Bound to the 50S Ribosomal Subunit |
3cc7 | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation C2487U |
3cce | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation U2535A |
3ccj | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation C2534U |
3ccl | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation U2535C. Density for Anisomycin is visible but not included in model. |
3ccm | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2611U |
3ccq | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation A2488U |
3ccr | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation A2488C. Density for anisomycin is visible but not included in the model. |
3ccs | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2482A |
3ccu | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2482C |
3ccv | | Structure of Anisomycin resistant 50S Ribosomal Subunit: 23S rRNA mutation G2616A |
3cd6 | | Co-cystal of large Ribosomal Subunit mutant G2616A with CC-Puromycin |
3cf5 | | Thiopeptide antibiotic Thiostrepton bound to the large ribosomal subunit of Deinococcus radiodurans |
3cma | | The structure of CCA and CCA-Phe-Cap-Bio bound to the large ribosomal subunit of Haloarcula marismortui |
3cme | | The Structure of CA and CCA-PHE-CAP-BIO Bound to the Large Ribosomal Subunit of Haloarcula Marismortui |
3cpw | | The structure of the antibiotic LINEZOLID bound to the large ribosomal subunit of HALOARCULA MARISMORTUI |
3cxc | | The structure of an enhanced oxazolidinone inhibitor bound to the 50S ribosomal subunit of H. marismortui |
3dll | | The oxazolidinone antibiotics perturb the ribosomal peptidyl-transferase center and effect tRNA positioning |
3g4s | | Co-crystal structure of Tiamulin bound to the large ribosomal subunit |
3g6e | | Co-crystal structure of Homoharringtonine bound to the large ribosomal subunit |
3g71 | | Co-crystal structure of Bruceantin bound to the large ribosomal subunit |
3i55 | | Co-crystal structure of Mycalamide A Bound to the Large Ribosomal Subunit |
3i56 | | Co-crystal structure of Triacetyloleandomcyin Bound to the Large Ribosomal Subunit |
3iy9 | | Leishmania Tarentolae Mitochondrial Large Ribosomal Subunit Model |
3j3v | | Atomic model of the immature 50S subunit from Bacillus subtilis (state I-a) |
3j3w | | Atomic model of the immature 50S subunit from Bacillus subtilis (state II-a) |
3j5l | | Structure of the E. coli 50S subunit with ErmBL nascent chain |
3j6b | | 3J6B |
3j6x | | 3J6X |
3j6y | | 3J6Y |
3j77 | | 3J77 |
3j78 | | 3J78 |
3j79 | | 3J79 |
3j7o | | 3J7O |
3j7p | | 3J7P |
3j7q | | 3J7Q |
3j7r | | 3J7R |
3j7y | | 3J7Y |
3j7z | | 3J7Z |
3j8g | | 3J8G |
3j92 | | 3J92 |
3j9m | | 3J9M |
3j9w | | 3J9W |
3j9y | | 3J9Y |
3j9z | | 3J9Z |
3ja1 | | 3JA1 |
3jag | | 3JAG |
3jah | | 3JAH |
3jai | | 3JAI |
3jaj | | 3JAJ |
3jan | | 3JAN |
3jbn | | 3JBN |
3jbo | | 3JBO |
3jbp | | 3JBP |
3jbu | | 3JBU |
3jbv | | 3JBV |
3jcd | | 3JCD |
3jce | | 3JCE |
3jcj | | 3JCJ |
3jcn | | 3JCN |
3jcs | | 3JCS |
3jct | | 3JCT |
3ow2 | | Crystal Structure of Enhanced Macrolide Bound to 50S Ribosomal Subunit |
3pio | | Crystal structure of the synergistic antibiotic pair lankamycin and lankacidin in complex with the large ribosomal subunit |
3pip | | Crystal structure of the synergistic antibiotic pair lankamycin and lankacidin in complex with the large ribosomal subunit |
487d | | SEVEN RIBOSOMAL PROTEINS FITTED TO A CRYO-ELECTRON MICROSCOPIC MAP OF THE LARGE 50S SUBUNIT AT 7.5 ANGSTROMS RESOLUTION |
4adx | | The Cryo-EM Structure of the Archaeal 50S Ribosomal Subunit in Complex with Initiation Factor 6 |
4ce4 | | 39S large subunit of the porcine mitochondrial ribosome |
4csu | | 4CSU |
4d5y | | 4D5Y |
4d67 | | 4D67 |
4io9 | | Crystal structure of compound 4d bound to large ribosomal subunit (50S) from Deinococcus radiodurans |
4ioa | | Crystal structure of compound 4e bound to large ribosomal subunit (50S) from Deinococcus radiodurans |
4ioc | | Crystal structure of compound 4f bound to large ribosomal subunit (50S) from Deinococcus radiodurans |
4l47 | | 4L47 |
4l71 | | 4L71 |
4lel | | 4LEL |
4lfz | | 4LFZ |
4lnt | | 4LNT |
4lsk | | 4LSK |
4lt8 | | 4LT8 |
4p6f | | 4P6F |
4p70 | | 4P70 |
4tua | | 4TUA |
4tub | | 4TUB |
4tuc | | 4TUC |
4tud | | 4TUD |
4tue | | 4TUE |
4u1u | | 4U1U |
4u1v | | 4U1V |
4u20 | | 4U20 |
4u24 | | 4U24 |
4u25 | | 4U25 |
4u26 | | 4U26 |
4u27 | | 4U27 |
4u3m | | 4U3M |
4u3n | | 4U3N |
4u3u | | 4U3U |
4u4n | | 4U4N |
4u4o | | 4U4O |
4u4q | | 4U4Q |
4u4r | | 4U4R |
4u4u | | 4U4U |
4u4y | | 4U4Y |
4u4z | | 4U4Z |
4u50 | | 4U50 |
4u51 | | 4U51 |
4u52 | | 4U52 |
4u53 | | 4U53 |
4u55 | | 4U55 |
4u56 | | 4U56 |
4u67 | | 4U67 |
4u6f | | 4U6F |
4ug0 | | 4UG0 |
4ujc | | 4UJC |
4ujd | | 4UJD |
4uje | | 4UJE |
4uy8 | | 4UY8 |
4v19 | | 4V19 |
4v3p | | 4V3P |
4v42 | | 4V42 |
4v47 | | 4V47 |
4v48 | | 4V48 |
4v49 | | 4V49 |
4v4a | | 4V4A |
4v4b | | 4V4B |
4v4g | | 4V4G |
4v4h | | 4V4H |
4v4i | | 4V4I |
4v4j | | 4V4J |
4v4n | | 4V4N |
4v4p | | 4V4P |
4v4q | | 4V4Q |
4v4r | | 4V4R |
4v4s | | 4V4S |
4v4t | | 4V4T |
4v4v | | 4V4V |
4v4w | | 4V4W |
4v4x | | 4V4X |
4v4y | | 4V4Y |
4v4z | | 4V4Z |
4v50 | | 4V50 |
4v51 | | 4V51 |
4v52 | | 4V52 |
4v53 | | 4V53 |
4v54 | | 4V54 |
4v55 | | 4V55 |
4v56 | | 4V56 |
4v57 | | 4V57 |
4v5a | | 4V5A |
4v5b | | 4V5B |
4v5c | | 4V5C |
4v5d | | 4V5D |
4v5e | | 4V5E |
4v5f | | 4V5F |
4v5g | | 4V5G |
4v5h | | 4V5H |
4v5j | | 4V5J |
4v5k | | 4V5K |
4v5l | | 4V5L |
4v5m | | 4V5M |
4v5n | | 4V5N |
4v5p | | 4V5P |
4v5q | | 4V5Q |
4v5r | | 4V5R |
4v5s | | 4V5S |
4v5y | | 4V5Y |
4v5z | | 4V5Z |
4v61 | | 4V61 |
4v63 | | 4V63 |
4v64 | | 4V64 |
4v65 | | 4V65 |
4v66 | | 4V66 |
4v67 | | 4V67 |
4v68 | | 4V68 |
4v69 | | 4V69 |
4v6a | | 4V6A |
4v6c | | 4V6C |
4v6d | | 4V6D |
4v6e | | 4V6E |
4v6f | | 4V6F |
4v6g | | 4V6G |
4v6i | | 4V6I |
4v6k | | 4V6K |
4v6l | | 4V6L |
4v6m | | 4V6M |
4v6n | | 4V6N |
4v6o | | 4V6O |
4v6p | | 4V6P |
4v6q | | 4V6Q |
4v6r | | 4V6R |
4v6s | | 4V6S |
4v6t | | 4V6T |
4v6u | | 4V6U |
4v6v | | 4V6V |
4v6w | | 4V6W |
4v6x | | 4V6X |
4v6y | | 4V6Y |
4v6z | | 4V6Z |
4v70 | | 4V70 |
4v71 | | 4V71 |
4v72 | | 4V72 |
4v73 | | 4V73 |
4v74 | | 4V74 |
4v75 | | 4V75 |
4v76 | | 4V76 |
4v77 | | 4V77 |
4v78 | | 4V78 |
4v79 | | 4V79 |
4v7a | | 4V7A |
4v7b | | 4V7B |
4v7c | | 4V7C |
4v7d | | 4V7D |
4v7e | | 4V7E |
4v7f | | 4V7F |
4v7h | | 4V7H |
4v7i | | 4V7I |
4v7j | | 4V7J |
4v7k | | 4V7K |
4v7l | | 4V7L |
4v7m | | 4V7M |
4v7p | | 4V7P |
4v7r | | 4V7R |
4v7s | | 4V7S |
4v7t | | 4V7T |
4v7u | | 4V7U |
4v7v | | 4V7V |
4v7w | | 4V7W |
4v7x | | 4V7X |
4v7y | | 4V7Y |
4v7z | | 4V7Z |
4v83 | | 4V83 |
4v84 | | 4V84 |
4v85 | | 4V85 |
4v87 | | 4V87 |
4v88 | | 4V88 |
4v89 | | 4V89 |
4v8a | | 4V8A |
4v8b | | 4V8B |
4v8c | | 4V8C |
4v8d | | 4V8D |
4v8e | | 4V8E |
4v8f | | 4V8F |
4v8g | | 4V8G |
4v8h | | 4V8H |
4v8i | | 4V8I |
4v8j | | 4V8J |
4v8m | | 4V8M |
4v8n | | 4V8N |
4v8o | | 4V8O |
4v8p | | 4V8P |
4v8q | | 4V8Q |
4v8t | | 4V8T |
4v8u | | 4V8U |
4v8x | | 4V8X |
4v8y | | 4V8Y |
4v8z | | 4V8Z |
4v90 | | 4V90 |
4v91 | | 4V91 |
4v95 | | 4V95 |
4v97 | | 4V97 |
4v9a | | 4V9A |
4v9b | | 4V9B |
4v9c | | 4V9C |
4v9d | | 4V9D |
4v9f | | 4V9F |
4v9h | | 4V9H |
4v9i | | 4V9I |
4v9j | | 4V9J |
4v9k | | 4V9K |
4v9l | | 4V9L |
4v9m | | 4V9M |
4v9n | | 4V9N |
4v9o | | 4V9O |
4v9p | | 4V9P |
4v9q | | 4V9Q |
4v9r | | 4V9R |
4v9s | | 4V9S |
4w29 | | 4W29 |
4w2e | | 4W2E |
4w2f | | 4W2F |
4w2g | | 4W2G |
4w2h | | 4W2H |
4w2i | | 4W2I |
4w4g | | 4W4G |
4wce | | 4WCE |
4wf1 | | 4WF1 |
4wf9 | | 4WF9 |
4wfa | | 4WFA |
4wfb | | 4WFB |
4wfn | | 4WFN |
4woi | | 4WOI |
4wpo | | 4WPO |
4wq1 | | 4WQ1 |
4wqf | | 4WQF |
4wqr | | 4WQR |
4wqu | | 4WQU |
4wqy | | 4WQY |
4wr6 | | 4WR6 |
4wra | | 4WRA |
4wro | | 4WRO |
4wsd | | 4WSD |
4wsm | | 4WSM |
4wt1 | | 4WT1 |
4wt8 | | 4WT8 |
4wu1 | | 4WU1 |
4www | | 4WWW |
4wzd | | 4WZD |
4wzo | | 4WZO |
4xej | | 4XEJ |
4y4o | | 4Y4O |
4y4p | | 4Y4P |
4ybb | | 4YBB |
4ypb | | 4YPB |
4yzv | | 4YZV |
4z3s | | 4Z3S |
4z8c | | 4Z8C |
4zer | | 4ZER |
4zsn | | 4ZSN |
5a9z | | 5A9Z |
5aa0 | | 5AA0 |
5ady | | 5ADY |
5afi | | 5AFI |
5aj0 | | 5AJ0 |
5aj4 | | 5AJ4 |
5aka | | 5AKA |
5apn | | 5APN |
5apo | | 5APO |
5czp | | 5CZP |
5d8b | | 5D8B |
5dat | | 5DAT |
5dc3 | | 5DC3 |
5dfe | | 5DFE |
5dm6 | | 5DM6 |
5dm7 | | 5DM7 |
5dox | | 5DOX |
5doy | | 5DOY |
5e7k | | 5E7K |
5e81 | | 5E81 |
5el4 | | 5EL4 |
5el5 | | 5EL5 |
5el6 | | 5EL6 |
5el7 | | 5EL7 |
5f8k | | 5F8K |
5fci | | 5FCI |
5fcj | | 5FCJ |
5fdu | | 5FDU |
5fdv | | 5FDV |
5fl8 | | 5FL8 |
5gad | | 5GAD |
5gae | | 5GAE |
5gaf | | 5GAF |
5gag | | 5GAG |
5gah | | 5GAH |
5gak | | 5GAK |
5hau | | 5HAU |
5hcp | | 5HCP |
5hcq | | 5HCQ |
5hcr | | 5HCR |
5hd1 | | 5HD1 |
5i4l | | 5I4L |
5ib7 | | 5IB7 |
5ib8 | | 5IB8 |
5ibb | | 5IBB |
5imq | | 5IMQ |
5imr | | 5IMR |
5iqr | | 5IQR |
5it7 | | 5IT7 |
5it8 | | 5IT8 |
5j30 | | 5J30 |
5j3c | | 5J3C |
5j4b | | 5J4B |
5j4c | | 5J4C |
5j4d | | 5J4D |
5j5b | | 5J5B |
5j7l | | 5J7L |
5j88 | | 5J88 |
5j8a | | 5J8A |
5j8b | | 5J8B |
5j91 | | 5J91 |
5jc9 | | 5JC9 |
5jcs | | 5JCS |
5jte | | 5JTE |
5ju8 | | 5JU8 |
5juo | | 5JUO |
5jup | | 5JUP |
5jus | | 5JUS |
5jut | | 5JUT |
5juu | | 5JUU |
5jvg | | 5JVG |
5jvh | | 5JVH |
5kcr | | 5KCR |
5kcs | | 5KCS |
5kps | | 5KPS |
5kpv | | 5KPV |
5kpw | | 5KPW |
5kpx | | 5KPX |
5l3p | | 5L3P |
5lyb | | 5LYB |
5lza | | 5LZA |
5lzb | | 5LZB |
5lzc | | 5LZC |
5lzd | | 5LZD |
5lze | | 5LZE |
5lzf | | 5LZF |
5lzs | | 5LZS |
5lzt | | 5LZT |
5lzu | | 5LZU |
5lzv | | 5LZV |
5lzw | | 5LZW |
5lzx | | 5LZX |
5lzy | | 5LZY |
5lzz | | 5LZZ |
5t5h | | 5T5H |
5tga | | 5TGA |