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SAS results for UniProt accession no. P0A7M6

Sequence annotated by structure

Key:
Sec. struc: By homology
  Helix Strand  
Residue contacts:   to DNA/RNA
Active sites:   (from PDB SITE records)
PROSITE patterns: Low   High conservation

Secondary structure shown in red comes from a homologous protein structure which is at least 30% sequence identical to the target protein and has an alignment overlap of at least 80 residues or at least three-quarters of the length of the target sequence (whichever overlap is the larger).

Click on annotated residues to get source(s) of each annotation.

 

FASTA alignment for UniProt accession no. P0A7M6 - coloured by no. of contacts to ligand

Below are the FASTA results from a search of the sequence of UniProt accession no. P0A7M6 against all protein sequences in the PDB. Identical sequences are grouped together and represented by a single 'consensus' sequence (asterisked) onto which all relevant annotations are mapped. The number of sequences represented by each consensus sequence is shown by the '×n' on the right of the alignment. Use the box below to modify the annotations shown on the alignment. At the bottom of the page are given the FASTA stats for all the sequences. There you can exclude any sequences from the alignment.

Struct

FASTA

The search returned 69 unique sequences (including 28 consensus sequences) giving 390 sequence matches in all. The 146 sequences excluded from the alignment are listed at the end.

Modify alignment: Annotate by:
  Number:  
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                1         2         3         4         5         6     
       12345678901234567890123456789012345678901234567890123456789012345    Protein name
       ---------+---------+---------+---------+---------+---------+-----    ------------
P0A7M6 ------mkakelreksveeln----tellnllreq----fnlrmqaasgqlqqshl--lkqvrrd    50S ribosomal protein L29 OS=Escherichia coli (strain K12)  ...
1vs6:X*------mkakelreksveeln----tellnllreq----fnlrmqaasgqlqqshl--lkqvrrd×93 Crystal structure of the bacterial ribosome from  ...
1p85:W*------mkakelreksveeln----tellnllreq----fnlrmqaasgqlqqshl--lkqvrrd×4  Real space refined coordinates of the 50s subunit fitted  ...
1r73:A ------mkaselrnytdeelk----nlleekkrql----melrfqlamgqlkntsl--ikltkrd    Solution structure of tm1492, the l29 ribosomal protein  ...
3j3v:X*------mkaneirdlttaeie----qkvkslkeel----fnlrfqlatgqlentar--irevrka×2  Atomic model of the immature 50s subunit from bacillus  ...
2d3o:W*------mkpsemrnlqatdfa----keidarkkel----melrfqaaagqlaqphr--vrqlrre×9  Structure of ribosome binding domain of the trigger factor  ...
3uxq:2*------mklsevr-kqleearklspveleklvrekkrelmelrfqasigqlsqnhk--irdlkrq×7  The structure of thermorubin in complex with the 70s  ...
3v2f:2 ------mklsevr-kqleearklspveleklvrekkrelmelrfqasigqlsqnhk--irdlkrq    Crystal structure of yfia bound to the 70s ribosome. This  ...
4dha:2 ------mklsevr-kqleearklspveleklvrekkrelmelrfqasigqlsqnhk--irdlkrq    Crystal structure of yaej bound to the 70s ribosome
4dhc:2 ------mklsevr-kqleearklspveleklvrekkrelmelrfqasigqlsqnhk--irdlkrq    Crystal structure of yaej bound to the 70s ribosome
3d5b:2*------mklsevr-kqleearklspveleklvrekkrelmelrfqasigqlsqnhk--irdlkrq×2  Structural basis for translation termination on the 70s  ...
1vs9:W ----mrkqleearklspvele----klvrekkrel----melrfqasigqlsqnhk--irdlkrq    Crystal structure of a 70s ribosome-tRNA complex reveals  ...
3tve:W*--sevrkqleearklspvele----klvrekkrel----melrfqasigqlsqnhk--irdlkrq×11 Crystal structure analysis of ribosomal decoding. This  ...
2hgj:1*----mrkqleearklspvele----klvrekkrel----melrfqasigqlsqnhk--irdlkrq×3  Crystal structure of the 70s thermus thermophilus ribosome  ...
3i8f:W*--sevrkqleearklspvele----klvrekkrel----melrfqasigqlsqnhk--irdlkrq×9  Elongation complex of the 70s ribosome with three trnas and  ...
2wdi:2*klsevrkqleearklspvele----klvrekkrel----melrfqasigqlsqnhk--irdlkrq×59 Structure of the thermus thermophilus 70s ribosome in  ...
1kc9:W*-------kpsemrnlqatdfa----keidarkkel----melrfqaaagqlaqphr--vrqlrre×18 Crystal structure of the large ribosomal subunit from  ...
1twv:N ---------eearklspvele----klvrekkrel----melr-qasigqlsqnhk--irdlkrq    Model structure of the t. Thermophilus 70s ribosome,50s  ...
1giy:W*----tvlhvqeirdmtpaere----aelddlktel----lnarvqaaggapenpgr--ikelrka×6  Crystal structure of the ribosome at 5.5 a resolution. This  ...
3jyw:X ----agvkayelrtkskeqla----sqlvdlkkel----aelkvq----klsrpslpkiktvrks    Structure of the 60s proteins for eukaryotic ribosome based  ...
1vsa:W*------mklsevr-kqleearklspveleklvrekkrelmelrfqasigqlsqnhk--irdlkrq×14 Crystal structure of a 70s ribosome-tRNA complex reveals  ...

                                         1  
           7         8         9         0  
       6789012345678901234567890123456789012                                Protein name
       ----+---------+---------+---------+--                                ------------
P0A7M6 varvktllnekaga-----------------------                                50S ribosomal protein L29 OS=Escherichia coli (strain K12)  ...
1vs6:X*varvktllnekaga-----------------------                            ×93 Crystal structure of the bacterial ribosome from  ...
1p85:W*varvktllnek--------------------------                            ×4  Real space refined coordinates of the 50s subunit fitted  ...
1r73:A iariktilrerelgirr--------------------                                Solution structure of tm1492, the l29 ribosomal protein  ...
3j3v:X*iarmktvirere-------------------------                            ×2  Atomic model of the immature 50s subunit from bacillus  ...
2d3o:W*vaqlntvkaelarkgeq--------------------                            ×9  Structure of ribosome binding domain of the trigger factor  ...
3uxq:2*iarlltvlnekrrq-----------------------                            ×7  The structure of thermorubin in complex with the 70s  ...
3v2f:2 iarlltvlnekrrqn----------------------                                Crystal structure of yfia bound to the 70s ribosome. This  ...
4dha:2 iarlltvlnekrrq-----------------------                                Crystal structure of yaej bound to the 70s ribosome
4dhc:2 iarlltvlnekrrqn----------------------                                Crystal structure of yaej bound to the 70s ribosome
3d5b:2*iarlltvlnekrrqna---------------------                            ×2  Structural basis for translation termination on the 70s  ...
1vs9:W iarlltvlnekrr------------------------                                Crystal structure of a 70s ribosome-tRNA complex reveals  ...
3tve:W*iarlltvlnekrr------------------------                            ×11 Crystal structure analysis of ribosomal decoding. This  ...
2hgj:1*iarlltvlnekrrqna---------------------                            ×3  Crystal structure of the 70s thermus thermophilus ribosome  ...
3i8f:W*iarlltvlnekrrqna---------------------                            ×9  Elongation complex of the 70s ribosome with three trnas and  ...
2wdi:2*iarlltvlnekrrqna---------------------                            ×59 Structure of the thermus thermophilus 70s ribosome in  ...
1kc9:W*vaqlntvkaelarkgeq--------------------                            ×18 Crystal structure of the large ribosomal subunit from  ...
1twv:N iarlltvlnekrrqn----------------------                                Model structure of the t. Thermophilus 70s ribosome,50s  ...
1giy:W*iariktiqgeegd------------------------                            ×6  Crystal structure of the ribosome at 5.5 a resolution. This  ...
3jyw:X iacvltvineqqaaaaaaaaaaaaaaaaaaaaaaaaa                                Structure of the 60s proteins for eukaryotic ribosome based  ...
1vsa:W*iarllt-------------------------------                            ×14 Crystal structure of a 70s ribosome-tRNA complex reveals  ...

Residue colours: black = 0, purple = 1, blue = 2, green = 3, orange = 4, red = 5 or more contacts.

Sequence listing

The listing below shows the FASTA statistics for the PDB entries that matched UniProt accession no. P0A7M6. Ditto marks indicate identical sequences represented by a single representative sequence in the alignment above. The representative is asterisked and the names of all its duplicate sequences are indented to the right.

Structures whose names are given in purple are those that are annotated above. The parameters defining which sequences can transfer their annotations are shown at the bottom of the page where they can be altered and the alignment regenerated.

Use the checkboxes to the left of the PDB codes to exclude any sequences from the alignment (or to add back any sequences in the Excluded list). Then click the SELECT button at the bottom of the page to redisplay the alignment.

Aligned sequences

  Smith-
Waterman
score
%-tage
identity
a.a.
overlap
Seq
len
z-score E-
value
  PDB
code
Protein name
1. - - - 63 - - P0A7M6 50S ribosomal protein L29 OS=Escherichia coli (strain K12) GN=rpmC PE=1 SV=1
2. 381 100.0% 63 63 551.8 9.1e-24 1vs6:X * Crystal structure of the bacterial ribosome from escherichia coli in complex with the antibiotic kasugamyin at 3.5a resolution. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
3. " " " " " "  = 1vs8:X *
Crystal structure of the bacterial ribosome from escherichia complex with the antibiotic kasugamyin at 3.5a resolution. Contains the 50s subunit of one 70s ribosome. The entire cr structure contains two 70s ribosomes and is described in re
4. " " " " " "  = 1vt2:Y *
Crystal structure of the e. Coli ribosome bound to cem-101. Contains the 50s subunit of the second 70s ribosome.
5. " " " " " "  = 2aw4:X *
Crystal structure of the bacterial ribosome from escherichia 3.5 a resolution. This file contains the 50s subunit of one ribosome. The entire crystal structure contains two 70s rib is described in remark 400.
6. " " " " " "  = 2awb:X *
Crystal structure of the bacterial ribosome from escherichia 3.5 a resolution. This file contains the 50s subunit of the 70s ribosome. The entire crystal structure contains two 70s and is described in remark 400.
7. " " " " " "  = 2i2t:Y *
Crystal structure of ribosome with messenger RNA and the anticodon stem-loop of p-site tRNA. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
8. " " " " " "  = 2i2v:Y *
Crystal structure of ribosome with messenger RNA and the anticodon stem-loop of p-site tRNA. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
9. " " " " " "  = 2j28:X *
Model of e. Coli srp bound to 70s rncs
10. " " " " " "  = 2qam:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with neomycin. This file contains the 50s subunit of the first 70s ribosome, with neomycin bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
11. " " " " " "  = 2qao:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with neomycin. This file contains the 50s subunit of the second 70s ribosome, with neomycin bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
12. " " " " " "  = 2qba:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with gentamicin. This file contains the 50s subunit of the first 70s ribosome, with gentamicin bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
13. " " " " " "  = 2qbc:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with gentamicin. This file contains the 50s subunit of the second 70s ribosome, with gentamicin bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
14. " " " " " "  = 2qbe:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with ribosome recycling factor (rrf). This file contains the 50s subunit of the first 70s ribosome, with rrf bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
15. " " " " " "  = 2qbg:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with ribosome recycling factor (rrf). This file contains the 50s subunit of the second 70s ribosome, with rrf bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
16. " " " " " "  = 2qbi:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with gentamicin and ribosome recycling factor (rrf). This file contains the 50s subunit of the first 70s ribosome, with gentamicin and rrf bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
17. " " " " " "  = 2qbk:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with gentamicin and ribosome recycling factor (rrf). This file contains the 50s subunit of the second 70s ribosome, with gentamicin and rrf bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
18. " " " " " "  = 2qov:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with spectinomycin. This file contains the 50s subunit of the first 70s ribosome. The entire crystal structure contains two 70s ribosomes.
19. " " " " " "  = 2qox:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with spectinomycin. This file contains the 50s subunit of the second 70s ribosome. The entire crystal structure contains two 70s ribosomes.
20. " " " " " "  = 2qoz:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with spectinomycin and neomycin. This file contains the 50s subunit of the first 70s ribosome, with neomycin bound. The entire crystal structure contains two 70s ribosomes.
21. " " " " " "  = 2qp1:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with spectinomycin and neomycin. This file contains the 50s subunit of the second 70s ribosome, with neomycin bound. The entire crystal structure contains two 70s ribosomes.
22. " " " " " "  = 2rdo:X *
50s subunit with ef-g(gdpnp) and rrf bound
23. " " " " " "  = 2vhm:X *
Structure of pdf binding helix in complex with the ribosome (part 1 of 4)
24. " " " " " "  = 2vhn:X *
Structure of pdf binding helix in complex with the ribosome. (Part 2 of 4)
25. " " " " " "  = 2vrh:D *
Structure of the e. Coli trigger factor bound to a translating ribosome
26. " " " " " "  = 2wwq:1 *
E.Coli 70s ribosome stalled during translation of tnac leader peptide. This file contains the 50s, the p-site tRNA and the tnac leader peptide (part 2 of 2).
27. " " " " " "  = 2z4l:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with paromomycin and ribosome recycling factor (rrf). This file contains the 50s subunit of the first 70s ribosome, with paromomycin and rrf bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
28. " " " " " "  = 2z4n:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with paromomycin and ribosome recycling factor (rrf). This file contains the 50s subunit of the second 70s ribosome, with paromomycin and rrf bound. The entire crystal structure contains two 70s ribosomes and is described in remark 400.
29. " " " " " "  = 3bbx:X *
The hsp15 protein fitted into the low resolution cryo-em map 50s.Nc-tRNA.Hsp15 complex
30. " " " " " "  = 3df2:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with hygromycin b. This file contains the 50s subunit of the first 70s ribosome. The entire crystal structure contains two 70s ribosomes.
31. " " " " " "  = 3df4:X *
Crystal structure of the bacterial ribosome from escherichia coli in complex with hygromycin b. This file contains the 50s subunit of the second 70s ribosome. The entire crystal structure contains two 70s ribosomes.
32. " " " " " "  = 3e1b:Q *
Structure of the 50s subunit of e. Coli ribosome in pre-acco state
33. " " " " " "  = 3e1d:Q *
Structure of the 50s subunit of e. Coli ribosome in post-acc state
34. " " " " " "  = 3fik:Y *
Ternary complex-bound e.Coli 70s ribosome. This entry consis 50s subunit.
35. " " " " " "  = 3i1n:Y *
Crystal structure of the e. Coli 70s ribosome in an intermediate state of ratcheting
36. " " " " " "  = 3i1p:Y *
Crystal structure of the e. Coli 70s ribosome in an intermediate state of ratcheting
37. " " " " " "  = 3i1r:Y *
Crystal structure of the e. Coli 70s ribosome in an intermed of ratcheting
38. " " " " " "  = 3i1t:Y *
Crystal structure of the e. Coli 70s ribosome in an intermed of ratcheting
39. " " " " " "  = 3i20:Y *
Crystal structure of the e. Coli 70s ribosome in an intermediate state of ratcheting
40. " " " " " "  = 3i22:Y *
Crystal structure of the e. Coli 70s ribosome in an intermediate state of ratcheting
41. " " " " " "  = 3iy9:X *
Leishmania tarentolae mitochondrial large ribosomal subunit model
42. " " " " " "  = 3izt:Z *
Structural insights into cognate vs. Near-cognate discrimina during decoding. This entry contains the large subunit of a programmed with a near-cognate codon.
43. " " " " " "  = 3izu:Z *
Structural insights into cognate vs. Near-cognate discrimina during decoding. This entry contains the large subunit of a programmed with a cognate codon
44. " " " " " "  = 3j01:Y *
Structure of the ribosome-secye complex in the membrane envi
45. " " " " " "  = 3j0t:0 *
Structural characterization of mRNA-tRNA translocation inter (50s ribosome of class2 of the six classes)
46. " " " " " "  = 3j0w:0 *
Structural characterization of mRNA-tRNA translocation inter (50s ribosome of class 4a of the six classes)
47. " " " " " "  = 3j0y:0 *
Structural characterization of mRNA-tRNA translocation inter (50s ribosome of class 4b of the six classes)
48. " " " " " "  = 3j11:0 *
Structural characterization of mRNA-tRNA translocation inter (50s ribosome of class 3 of the six classes)
49. " " " " " "  = 3j12:0 *
Structural characterization of mRNA-tRNA translocation inter (50s ribosome of class 5 of the six classes)
50. " " " " " "  = 3j14:0 *
Structural characterization of mRNA-tRNA translocation inter (50s ribosome of class 6 of the six classes)
51. " " " " " "  = 3j19:Y *
Structure of the bacterial ribosome complexed by tmrna-smpb during translocation and mld-loading (50s subunit)
52. " " " " " "  = 3j37:2 *
Tetracycline resistance protein tet(o) bound to the ribosome
53. " " " " " "  = 3j45:Y *
Structure of a non-translocating secy protein channel with t ribosome
54. " " " " " "  = 3j46:Y *
Structure of the secy protein translocation channel in actio
55. " " " " " "  = 3j4x:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in classic pre- translocation state (pre1b, 50s subunit)
56. " " " " " "  = 3j50:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in intermediate translocation state (pre2, 50s subunit)
57. " " " " " "  = 3j51:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in intermediate translocation state (pre3, 50s subunit)
58. " " " " " "  = 3j52:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in classic pre- translocation state (pre1a, 50s subunit)
59. " " " " " "  = 3j54:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in hybrid pre- translocation state (pre4, 50s subunit)
60. " " " " " "  = 3j56:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in hybrid pre- translocation state (pre5a, 50s subunit)
61. " " " " " "  = 3j58:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in hybrid pre- translocation state (pre5b, 50s subunit)
62. " " " " " "  = 3j5a:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in classic post translocation state (post1, 50s subunit)
63. " " " " " "  = 3j5c:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in intermediate translocation state (post2a, 50s subunit)
64. " " " " " "  = 3j5e:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in intermediate translocation state (post2b, 50s subunit)
65. " " " " " "  = 3j5g:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in intermediate translocation state (post3a, 50s subunit)
66. " " " " " "  = 3j5i:Y *
E. Coli 70s-fmetval-trnaval-trnafmet complex in intermediate translocation state (post3b, 50s subunit)
67. " " " " " "  = 3j5k:Y *
E. Coli 70s-fmetval-trnaval post-translocation complex (post subunit)
68. " " " " " "  = 3j5o:Y *
Visualization of two trnas trapped in transit during ef-g-me translocation (50s subunit)
69. " " " " " "  = 3j5u:1 *
Structure of the ribosome with elongation factor g trapped i translocation state (pre-translocation 70s tRNA structure, subunit)
70. " " " " " "  = 3j5w:2 *
Structure of the ribosome with elongation factor g trapped i translocation state (pre-translocation 70s tRNA Ef-g struct subunit)
71. " " " " " "  = 3kcr:Y *
Ribosome-secy complex. This entry 3kcr contains 50s ribosomal subnit. The 30s ribosomal subunit can be found in PDB entry 3kc4
72. " " " " " "  = 3oas:Y *
Crystal structure of the e. Coli ribosome bound to telithrom file contains the 50s subunit of the second 70s ribosome.
73. " " " " " "  = 3oat:Y *
Crystal structure of the e. Coli ribosome bound to telithrom file contains the 50s subunit of the first 70s ribosome wit telithromycin bound.
74. " " " " " "  = 3ofc:Y *
Crystal structure of the e. Coli ribosome bound to chloramph this file contains the 50s subunit of the first 70s ribosom chloramphenicol bound.
75. " " " " " "  = 3ofd:Y *
Crystal structure of the e. Coli ribosome bound to chloramph this file contains the 50s subunit of the second 70s riboso
76. " " " " " "  = 3ofq:Y *
Crystal structure of the e. Coli ribosome bound to erythromy file contains the 50s subunit of the second 70s ribosome.
77. " " " " " "  = 3ofr:Y *
Crystal structure of the e. Coli ribosome bound to erythromy file contains the 50s subunit of the first 70s ribosome wit erthromycin bound.
78. " " " " " "  = 3ofz:Y *
Crystal structure of the e. Coli ribosome bound to clindamyc file contains the 50s subunit of the first 70s ribosome bou clindamycin.
79. " " " " " "  = 3og0:Y *
Crystal structure of the e. Coli ribosome bound to clindamyc file contains the 50s subunit of the second 70s ribosome.
80. " " " " " "  = 3orb:Y *
Crystal structure of the e. Coli ribosome bound to cem-101. Contains the 50s subunit of the first 70s ribosome bound to
81. " " " " " "  = 3r8s:Y *
Structures of the bacterial ribosome in classical and hybrid tRNA binding
82. " " " " " "  = 3r8t:Y *
Structures of the bacterial ribosome in classical and hybrid tRNA binding
83. " " " " " "  = 3sgf:2 *
Crystal structure of release factor rf3 trapped in the gtp s rotated conformation of the ribosome
84. " " " " " "  = 3uos:2 *
Crystal structure of release factor rf3 trapped in the gtp s rotated conformation of the ribosome (without viomycin)
85. " " " " " "  = 4gar:Y *
Allosteric control of the ribosome by small-molecule antibio
86. " " " " " "  = 4gau:Y *
Allosteric control of the ribosome by small-molecule antibio
87. " " " " " "  = 4kix:Y *
Control of ribosomal subunit rotation by elongation factor g
88. " " " " " "  = 4kiz:Y *
Control of ribosomal subunit rotation by elongation factor g
89. " " " " " "  = 4kj1:Y *
Control of ribosomal subunit rotation by elongation factor g
90. " " " " " "  = 4kj3:Y *
Control of ribosomal subunit rotation by elongation factor g
91. " " " " " "  = 4kj5:Y *
Control of ribosomal subunit rotation by elongation factor g
92. " " " " " "  = 4kj7:Y *
Control of ribosomal subunit rotation by elongation factor g
93. " " " " " "  = 4kj9:Y *
Control of ribosomal subunit rotation by elongation factor g
94. " " " " " "  = 4kjb:Y *
Control of ribosomal subunit rotation by elongation factor g
95. 363 100.0% 60 60 526.8 2.3e-22 1p85:W * Real space refined coordinates of the 50s subunit fitted int resolution cryo-em map of the ef-g.Gtp state of e. Coli 70s
96. " " " " " "  = 1p86:W *
Real space refined coordinates of the 50s subunit fitted int resolution cryo-em map of the initiation-like state of e. C ribosome
97. " " " " " "  = 2gya:W *
Structure of the 50s subunit of a pre-translocational e. Coli ribosome obtained by fitting atomic models for RNA and protein components into cryo-em map emd-1056
98. " " " " " "  = 2gyc:W *
Structure of the 50s subunit of a secm-stalled e. Coli ribosome complex obtained by fitting atomic models for RNA and protein components into cryo-em map emd-1143
99. 167 46.7% 60 66 251.0 5.2e-07 1r73:A Solution structure of tm1492, the l29 ribosomal protein from thermotoga maritima
100. 163 40.0% 60 61 245.8 1e-06 3j3v:X * Atomic model of the immature 50s subunit from bacillus subti i-a)
101. " " " " " "  = 3j3w:X *
Atomic model of the immature 50s subunit from bacillus subti ii-a)
102. 141 39.3% 61 66 214.5 5.6e-05 2d3o:W * Structure of ribosome binding domain of the trigger factor on the 50s ribosomal subunit from d. Radiodurans
103. " " " " " "  = 2zjp:V *
Thiopeptide antibiotic nosiheptide bound to the large riboso subunit of deinococcus radiodurans
104. " " " " " "  = 2zjq:V *
Interaction of l7 with l11 induced by microccocin binding to deinococcus radiodurans 50s subunit
105. " " " " " "  = 2zjr:V *
Refined native structure of the large ribosomal subunit (50s) from deinococcus radiodurans
106. " " " " " "  = 3cf5:V *
Thiopeptide antibiotic thiostrepton bound to the large ribos subunit of deinococcus radiodurans
107. " " " " " "  = 3dll:V *
The oxazolidinone antibiotics perturb the ribosomal peptidyl-transferase center and effect tRNA positioning
108. " " " " " "  = 4io9:V *
Crystal structure of compound 4d bound to large ribosomal su (50s) from deinococcus radiodurans
109. " " " " " "  = 4ioa:V *
Crystal structure of compound 4e bound to large ribosomal su (50s) from deinococcus radiodurans
110. " " " " " "  = 4ioc:V *
Crystal structure of compound 4f bound to large ribosomal su (50s) from deinococcus radiodurans
111. 139 42.6% 68 70 211.3 8.4e-05 3uxq:2 * The structure of thermorubin in complex with the 70s ribosom thermus thermophilus. This file contains the 50s subunit of ribosome. The entire crystal structure contains two 70s rib
112. " " " " " "  = 3uxr:2 *
The structure of thermorubin in complex with the 70s ribosom thermus thermophilus. This file contains the 50s subunit of ribosome. The entire crystal structure contains two 70s rib
113. " " " " " "  = 3v23:2 *
Crystal structure of rmf bound to the 70s ribosome. This PDB contains coordinates for the 50s subunit of the 1st ribosom asu
114. " " " " " "  = 3v25:2 *
Crystal structure of rmf bound to the 70s ribosome. This PDB contains coordinates for the 50s subunit of the 2nd ribosom asu
115. " " " " " "  = 3v27:2 *
Crystal structure of hpf bound to the 70s ribosome. This PDB contains coordinates for the 50s subunit of the 1st ribosom asu
116. " " " " " "  = 3v29:2 *
Crystal structure of hpf bound to the 70s ribosome. This ent contains the 50s subunit of the 2nd molecule in the asu.
117. " " " " " "  = 3v2d:2 *
Crystal structure of yfia bound to the 70s ribosome. This pd contains coordinates for the 50s subunit of the 1st ribosom asu
118. 139 42.6% 68 71 211.3 8.5e-05 3v2f:2 Crystal structure of yfia bound to the 70s ribosome. This pd contains coordinates for the 50s subunit of the 2nd ribosom asu
119. 139 42.6% 68 70 211.3 8.4e-05 4dha:2 Crystal structure of yaej bound to the 70s ribosome
120. 139 42.6% 68 71 211.3 8.5e-05 4dhc:2 Crystal structure of yaej bound to the 70s ribosome
121. 139 42.6% 68 72 211.2 8.5e-05 3d5b:2 * Structural basis for translation termination on the 70s ribo file contains the 50s subunit of one 70s ribosome. The enti structure contains two 70s ribosomes as described in remark
122. " " " " " "  = 3d5d:2 *
Structural basis for translation termination on the 70s ribo file contains the 50s subunit of the second 70s ribosome. T crystal structure contains two 70s ribosomes as described i 400.
123. 136 42.1% 57 64 207.6 0.00013 1vs9:W Crystal structure of a 70s ribosome-tRNA complex reveals functional interactions and rearrangements. This file, 1vs9, contains the 50s ribosome subunit. 30s ribosome subunit is in the file 2i1c
124. 136 42.1% 57 66 207.5 0.00014 3tve:W * Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the first 70s molecule in the unit for the cognate tRNA-leu complex
125. " " " " " "  = 3uye:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the first 70s molecule in the unit for the near-cognate tRNA-leu complex
126. " " " " " "  = 3uz1:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the first 70s molecule in the unit for the near-cognate tRNA-leu complex with paromomycin
127. " " " " " "  = 3uz8:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the second 70s molecule in the asymmetric unit for the cognate tRNA-tyr complex.
128. " " " " " "  = 3uz9:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the first 70s molecule in the unit for the cognate tRNA-tyr complex.
129. " " " " " "  = 3uzf:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the first 70s molecule in the unit for the near-cognate tRNA-tyr complex
130. " " " " " "  = 3uzh:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the second 70s molecule in the asymmetric unit for the near-cognate tRNA-tyr complex.
131. " " " " " "  = 3uzk:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the first 70s molecule in the unit for the near-cognate tRNA-tyr complex with paromomycin
132. " " " " " "  = 3uzn:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the second 70s molecule in the asymmetric unit for the near-cognate tRNA-tyr complex with paromomycin
133. " " " " " "  = 4g5l:W *
Crystal structure of the 70s ribosome with tetracycline. Thi contains the 50s subunit of molecule a.
134. " " " " " "  = 4g5u:W *
Crystal structure of the 70s ribosome with tigecycline. This contains the 50s subunit of molecule a.
135. 136 42.1% 57 67 207.4 0.00014 2hgj:1 * Crystal structure of the 70s thermus thermophilus ribosome s the 16s 3'-end mimicks mRNA e and p codons. This entry 2hgj 50s ribosomal subunit. The 30s ribosomal subunit can be fou entry 2hgi.
136. " " " " " "  = 2hgq:1 *
Crystal structure of the 70s thermus thermophilus ribosome w translocated and rotated shine-dalgarno duplex. This entry contains 50s ribosomal subunit. The 30s ribosomal subunit c found in PDB entry 2hgp.
137. " " " " " "  = 2hgu:1 *
70s t.Th. Ribosome functional complex with mRNA and e- and p trnas at 4.5a. This entry 2hgu contains 50s ribosomal subun 30s ribosomal subunit can be found in PDB entry 2hgr.
138. 136 42.1% 57 69 207.2 0.00014 3i8f:W * Elongation complex of the 70s ribosome with three trnas and entry 3i8f contains 50s ribosomal subunit. The 30s ribosoma can be found in PDB entry 3i8g. Molecule b in the same asym unit is deposited as 3i8g (30s) and 3i8f (50s).
139. " " " " " "  = 3i8i:W *
Elongation complex of the 70s ribosome with three trnas and entry 3i8i contains 50s ribosomal subnit. The 30s ribosomal can be found in PDB entry 3i8h. Molecule a in the same asym unit is deposited as 3i8f (50s) and 3i8g (30s).
140. " " " " " "  = 3i9c:W *
Initiation complex of 70s ribosome with two trnas and mRNA. 3i9c contains 50s ribosomal subunit of molecule b. The 30s subunit can be found in PDB entry 3i9b. Molecule a in the s asymmetric unit is deposited as 3i9d (30s) and 3i9e (50s)
141. " " " " " "  = 3i9e:W *
Initiation complex of 70s ribosome with two trnas and mRNA. 3i9e contains 50s ribosomal subunit of molecule a. The 30s subunit can be found in PDB entry 3i9d. Molecule b in the s asymmetric unit is deposited as 3i9b (30s) and 3i9c (50s)
142. " " " " " "  = 3tvh:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the second 70s molecule in the asymmetric unit for the cognate tRNA-leu complex
143. " " " " " "  = 3uyg:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the first 70s molecule in the unit for the near-cognate tRNA-leu complex
144. " " " " " "  = 3uz2:W *
Crystal structure analysis of ribosomal decoding. This entry the 50s ribosomal subunit of the second 70s molecule in the asymmetric unit for the near-cognate tRNA-leu complex with paromomycin.
145. " " " " " "  = 4g5n:W *
Crystal structure of the 70s ribosome with tetracycline. Thi contains the 50s subunit of molecule b.
146. " " " " " "  = 4g5w:W *
Crystal structure of the 70s ribosome with tigecycline. This contains the 50s subunit of molecule b.
147. 136 42.1% 57 71 207.1 0.00015 2wdi:2 * Structure of the thermus thermophilus 70s ribosome in complex with mRNA, paromomycin, acylated a-site tRNA, deacylated p-site tRNA, and e-site tRNA. This file contains the 50s subunit for molecule i.
148. " " " " " "  = 2wdj:2 *
Structure of the thermus thermophilus 70s ribosome in complex with mRNA, paromomycin, acylated a-site tRNA, deacylated p-site tRNA, and e-site tRNA. This file contains the 50s subunit for molecule ii.
149. " " " " " "  = 2wdl:2 *
Structure of the thermus thermophilus 70s ribosome in complex with mRNA, paromomycin, acylated a- and p-site trnas, and e-site tRNA. This file contains the 50s subunit for molecule i.
150. " " " " " "  = 2wdn:2 *
Structure of the thermus thermophilus 70s ribosome in complex with mRNA, paromomycin, acylated a- and p-site trnas, and e-site tRNA. This file contains the 50s subunit for molecule ii.
151. " " " " " "  = 2wh2:2 *
Insights into translational termination from the structure of rf2 bound to the ribosome
152. " " " " " "  = 2wh4:2 *
Insights into translational termination from the structure of rf2 bound to the ribosome
153. " " " " " "  = 2wrj:2 *
The structure of the ribosome with elongation factor g trapped in the post-translocational state (part 2 of 4).
154. " " " " " "  = 2wrl:2 *
The structure of the ribosome with elongation factor g trapped in the post-translocational state. (Part 4 of 4).
155. " " " " " "  = 2wro:2 *
The crystal structure of the 70s ribosome bound to ef-tu and tRNA (part 2 of 4).
156. " " " " " "  = 2wrr:2 *
The crystal structure of the 70s ribosome bound to ef-tu and tRNA (part 4 of 4).
157. " " " " " "  = 2x9s:2 *
Structure of the 70s ribosome bound to release factor 2 and a substrate analog provides insights into catalysis of peptide release
158. " " " " " "  = 2x9u:2 *
Structure of the 70s ribosome bound to release factor 2 and a substrate analog provides insights into catalysis of peptide release
159. " " " " " "  = 2xg0:2 *
Structure of cytotoxic domain of colicin e3 bound to the 70s ribosome (part 2 of 4)
160. " " " " " "  = 2xg2:2 *
Structure of cytotoxic domain of colicin e3 bound to the 70s ribosome (part 4 of 4)
161. " " " " " "  = 2xqe:2 *
The structure of ef-tu and aminoacyl-tRNA bound to the 70s ribosome with a gtp analog
162. " " " " " "  = 2xtg:2 *
tRNA tranlocation on the 70s ribosome: the pre- translocational translocation intermediate ti(pre)
163. " " " " " "  = 2xux:2 *
tRNA translocation on the 70s ribosome: the post- translocational translocation intermediate ti(post)
164. " " " " " "  = 2y0v:2 *
The crystal structure of ef-tu and a9c-tRNA-trp bound to a near-cognate codon on the 70s ribosome
165. " " " " " "  = 2y0x:2 *
The crystal structure of ef-tu and a9c-tRNA-trp bound to a near-cognate codon on the 70s ribosome
166. " " " " " "  = 2y0z:2 *
The crystal structure of ef-tu and g24a-tRNA-trp bound to a near-cognate codon on the 70s ribosome
167. " " " " " "  = 2y11:2 *
The crystal structure of ef-tu and trp-tRNA-trp bound to a cognate codon on the 70s ribosome.
168. " " " " " "  = 2y13:2 *
The crystal structure of ef-tu and g24a-tRNA-trp bound to a near-cognate codon on the 70s ribosome
169. " " " " " "  = 2y15:2 *
The crystal structure of ef-tu and g24a-tRNA-trp bound to a cognate codon on the 70s ribosome.
170. " " " " " "  = 2y17:2 *
Ef-tu complex 3
171. " " " " " "  = 2y19:2 *
The crystal structure of ef-tu and trp-tRNA-trp bound to a cognate codon on the 70s ribosome.
172. " " " " " "  = 3hux:2 *
Structure of ef-p bound to the 70s ribosome; this file conta 50s subunit for molecule i.
173. " " " " " "  = 3huz:2 *
Structure of ef-p bound to the 70s ribosome; this file conta 50s subunit for molecule ii.
174. " " " " " "  = 3kir:2 *
Structure of rele nuclease bound to the 70s ribosome (precleavage state; part 2 of 4)
175. " " " " " "  = 3kit:2 *
Structure of rele nuclease bound to the 70s ribosome (precleavage state; part 4 of 4)
176. " " " " " "  = 3kiw:2 *
Structure of rele nuclease bound to the 70s ribosome (postcleavage state; part 2 of 4)
177. " " " " " "  = 3kiy:2 *
Structure of rele nuclease bound to the 70s ribosome (postcleavage state; part 4 of 4)
178. " " " " " "  = 3kni:2 *
The structures of viomycin bound to the 70s ribosome. This f contains the 50s subunit for molecule i
179. " " " " " "  = 3knk:2 *
The structures of viomycin bound to the 70s ribosome. This f contains the 50s subunit for molecule ii.
180. " " " " " "  = 3knm:2 *
The structures of capreomycin bound to the 70s ribosome. Thi contains the 50s subunit for molecule i.
181. " " " " " "  = 3kno:2 *
The structures of capreomycin bound to the 70s ribosome. Thi contains the 50s subunit for molecule ii
182. " " " " " "  = 3v6w:2 *
Crystal structure of the bacterial ribosome ram mutation g34 entry contains the 50s ribosomal subunit of the first 70s m the asymmetric unit
183. " " " " " "  = 3v6x:2 *
Crystal structure of the bacterial ribosome ram mutation g34 entry contains the 50s ribosomal subunit of the second 70s in the asymmetric unit
184. " " " " " "  = 3zn9:2 *
The crystal structure of agmatidine tRNA-ile2 bound to the 70s ribosome in the a and p site.
185. " " " " " "  = 3zne:2 *
The crystal structure of agmatidine tRNA-ile2 bound to the 70s ribosome in the a and p site.
186. " " " " " "  = 3zvp:2 *
Crystal structure of the hybrid state of ribosome in complex the guanosine triphosphatase release factor 3
187. " " " " " "  = 4abs:2 *
Complex of smpb, a tmrna fragment and ef-tu-gdp-kirromycin w 70s ribosome
188. " " " " " "  = 4b8g:2 *
Crystal structure of 70s ribosome with both cognate trnas in and p sites representing an authentic elongation complex.
189. " " " " " "  = 4b8i:2 *
Crystal structure of 70s ribosome with both cognate trnas in and p sites representing an authentic elongation complex.
190. " " " " " "  = 4btd:2 *
Thermus thermophilus ribosome
191. " " " " " "  = 4byc:2 *
Structure of thermus thermophilus 50s ribosome
192. " " " " " "  = 4bye:2 *
Structure of thermus thermophilus 50s ribosome
193. " " " " " "  = 4ejb:2 *
Crystal structure of the bacterial ribosome ram mutation g29 entry contains the 50s ribosomal subunit of the first 70s m the asymmetric unit.
194. " " " " " "  = 4ejc:2 *
Crystal structure of the bacterial ribosome ram mutation g29 entry contains the 50s ribosomal subunit of the second 70s in the asymmetric unit.
195. " " " " " "  = 4jux:2 *
Crystal structure of the ribosome bound to elongation factor guanosine triphosphatase state (this file contains the 50s
196. " " " " " "  = 4k0m:2 *
Crystal structure of thermus thermophilus 70s containing trn mRNA stop codon with pseudouridine
197. " " " " " "  = 4k0q:2 *
Crystal structure of thermus thermophilus 70s containing trn mRNA stop codon with pseudouridine
198. " " " " " "  = 4kbu:2 *
70s ribosome translocation intermediate gdpnp-ii containing factor efg/gdpnp, mRNA, and tRNA bound in the pe /E state. Contains 50s ribosomal subunit a. The full asymmetric unit contains PDB entries 4kbt (30s subunit a), 4kbv (30s subuni 4kbw (50s subunit b).
199. " " " " " "  = 4kbw:2 *
70s ribosome translocation intermediate gdpnp-ii containing factor efg/gdpnp, mRNA, and tRNA bound in the pe /E state. Contains 50s ribosomal subunit b. The full asymmetric unit contains PDB entries 4kbv (30s subunit b), 4kbt (30s subuni 4kbu (50s subunit a).
200. " " " " " "  = 4kcz:2 *
70s ribosome translocation intermediate gdpnp-i containing e factor efg/gdpnp, mRNA, and tRNA bound in the pe /E state.T contains the 50s ribosomal subunit a. The 30s subunit a can in 4kcy. Molecule b in the same asymmetric unit is deposite (30s) and 4kd2 (50s).G1 50s ribosomal subunit i
201. " " " " " "  = 4kd2:2 *
70s ribosome translocation intermediate gdpnp-i containing e factor efg/gdpnp, mRNA, and tRNA bound in the pe /E state. Contains the 50s ribosomal subunit b. The 30s subunit b can in 4kd0. Molecule a in the same asymmetric unit is deposite (30s) and 4kcz (50s).
202. " " " " " "  = 4kd9:2 *
70s ribosome translocation intermediate fa-3.6a containing e factor efg/fusidic acid/gdp, mRNA, and tRNA bound in the pe this entry contains the 50s ribosomal subunit a. The 30s su can be found in 4kd8. Molecule b in the same asymmetric uni deposited as 4kda (30s) and 4kdb (50s).
203. " " " " " "  = 4kdb:2 *
70s ribosome translocation intermediate fa-3.6a containing e factor efg/fusidic acid/gdp, mRNA, and tRNA bound in the pe this entry contains the 50s ribosomal subunit b. The 30s su can be found in 4kda. Molecule a in the same asymmetric uni deposited as 4kd8 (30s) and 4kd9 (50s).
204. " " " " " "  = 4kdh:2 *
70s ribosome translocation intermediate fa-4.2a containing e factor efg/fusidic acid/gdp, mRNA, and tRNA bound in the pe this entry contains the 50s ribosomal subunit a. The 30s su can be found in 4kdg. Molecule b in the same asymmetric uni deposited as 4kdj (30s) and 4kdk (50s).
205. " " " " " "  = 4kdk:2 *
70s ribosome translocation intermediate fa-4.2a containing e factor efg/fusidic acid/gdp, mRNA, and tRNA bound in the pe this entry contains the 50s ribosomal subunit b. The 30s su can be found in 4kdj. Molecule a in the same asymmetric uni deposited as 4kdg (30s) and 4kdh (50s).
206. 134 38.3% 60 65 204.7 0.0002 1kc9:W * Crystal structure of the large ribosomal subunit from deinococcus radiodurans
207. " " " " " "  = 1kpj:W *
Crystal structure of the large ribosomal subunit from deinococcus radiodurans
208. " " " " " "  = 1lnr:W *
Crystal structure of the large ribosomal subunit from deinococcus radiodurans
209. " " " " " "  = 1nkw:W *
Crystal structure of the large ribosomal subunit from deinococcus radiodurans
210. " " " " " "  = 1nwx:W *
Complex of the large ribosomal subunit from deinococcus radiodurans with abt-773
211. " " " " " "  = 1nwy:W *
Complex of the large ribosomal subunit from deinococcus radiodurans with azithromycin
212. " " " " " "  = 1pnu:W *
Crystal structure of a streptomycin dependent ribosome from escherichia coli, 50s subunit of 70s ribosome. This file, 1pnu, contains only molecules of the 50s ribosomal subunit. The 30s subunit, mRNA, p-site tRNA, and a-site tRNA are in the PDB file 1pns.
213. " " " " " "  = 1pny:W *
Crystal structure of the wild type ribosome from e. Coli, 50s subunit of 70s ribosome. This file, 1pny, contains only molecules of the 50s ribosomal subunit. The 30s subunit is in the PDB file 1pnx.
214. " " " " " "  = 1sm1:W *
Complex of the large ribosomal subunit from deinococcus radi with quinupristin and dalfopristin
215. " " " " " "  = 1vor:Y *
Crystal structure of five 70s ribosomes from escherichia coli in complex with protein y. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains five 70s ribosomes and is described in remark 400.
216. " " " " " "  = 1vou:Y *
Crystal structure of five 70s ribosomes from escherichia coli in complex with protein y. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains five 70s ribosomes and is described in remark 400.
217. " " " " " "  = 1vow:Y *
Crystal structure of five 70s ribosomes from escherichia coli in complex with protein y. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains five 70s ribosomes and is described in remark 400.
218. " " " " " "  = 1voy:Y *
Crystal structure of five 70s ribosomes from escherichia coli in complex with protein y. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains five 70s ribosomes and is described in remark 400.
219. " " " " " "  = 1vp0:Y *
Crystal structure of five 70s ribosomes from escherichia coli in complex with protein y. This file contains the 50s subunit of one 70s ribosome. The entire crystal structure contains five 70s ribosomes and is described in remark 400.
220. " " " " " "  = 1xbp:W *
Inhibition of peptide bond formation by pleuromutilins: the structure of the 50s ribosomal subunit from deinococcus radiodurans in complex with tiamulin
221. " " " " " "  = 2aar:W *
Structure of trigger factor binding domain in biologically homologous complex with eubacterial ribosome.
222. " " " " " "  = 3pio:V *
Crystal structure of the synergistic antibiotic pair lankamy lankacidin in complex with the large ribosomal subunit
223. " " " " " "  = 3pip:V *
Crystal structure of the synergistic antibiotic pair lankamy lankacidin in complex with the large ribosomal subunit
224. 124 42.1% 57 60 191.1 0.0011 1twv:N Model structure of the t. Thermophilus 70s ribosome,50s subunit of 70s ribosome. This file, 1twv, contains only molecules of the 50s ribosomal subunit. The 30s subunit is in the PDB file 1twt.
225. 122 33.3% 60 64 188.0 0.0017 1giy:W * Crystal structure of the ribosome at 5.5 a resolution. This file, 1giy, contains the 50s ribosome subunit. The 30s ribosome subunit, three tRNA, and mRNA molecules are in the file 1gix
226. " " " " " "  = 1ml5:w *
Structure of the e. Coli ribosomal termination complex with factor 2
227. " " " " " "  = 1yl3:W *
Crystal structure of 70s ribosome with thrs operator and trn subunit. The coordinates for the small subunit are in the p 1yl4.
228. " " " " " "  = 2b66:2 *
50s ribosomal subunit from a crystal structure of release fa trnas and mRNA bound to the ribosome. This file contains th subunit from a crystal structure of release factor rf1, trn mRNA bound to the ribosome and is described in remark 400
229. " " " " " "  = 2b9n:2 *
50s ribosomal subunit from a crystal structure of release fa trnas and mRNA bound to the ribosome. This file contains th subunit from a crystal structure of release factor rf1, trn mRNA bound to the ribosome and is described in remark 400.
230. " " " " " "  = 2b9p:2 *
50s ribosomal subunit from a crystal structure of the riboso complex with trnas and mRNA with a stop codon in the a-site file contains the 50s subunit from a crystal structure of t ribosome in complex with trnas and mRNA with a stop codon i site and is described in remark 400.
231. 116 38.5% 65 86 177.9 0.0061 3jyw:X Structure of the 60s proteins for eukaryotic ribosome based map of thermomyces lanuginosus ribosome at 8.9a resolution
232. 114 39.7% 63 62 176.9 0.0069 1vsa:W * Crystal structure of a 70s ribosome-tRNA complex reveals fun interactions and rearrangements. This file, 1vsa, contains ribosome subunit. 30s ribosome subunit is in the file 2ow8
233. " " " " " "  = 1vsp:W *
Interactions and dynamics of the shine-dalgarno helix in the ribosome. This file, 1vsp, contains the 50s ribosome subuni ribosome subunit is in the file 2qnh
234. " " " " " "  = 3f1f:2 *
Crystal structure of a translation termination complex forme release factor rf2. This file contains the 50s subunit of o ribosome. The entire crystal structure contains two 70s rib described in remark 400.
235. " " " " " "  = 3f1h:2 *
Crystal structure of a translation termination complex forme release factor rf2. This file contains the 50s subunit of t 70s ribosome. The entire crystal structure contains two 70s as described in remark 400.
236. " " " " " "  = 3mrz:Y *
Recognition of the amber stop codon by release factor rf1. T 3mrz contains 50s ribosomal subunit. The 30s ribosomal subu found in PDB entry 3ms0. Molecule a in the same asymmetric deposited as 3mr8 (50s) and 3ms1 (30s).
237. " " " " " "  = 3ms1:Y *
Recognition of the amber stop codon by release factor rf1. T 3ms1 contains 50s ribosomal subunit. The 30s ribosomal subu found in PDB entry 3mr8. Molecule b in the same asymmetric deposited as 3mrz (50s) and 3ms0 (30s).
238. " " " " " "  = 3pyo:Y *
Crystal structure of a complex containing domain 3 from the ires RNA bound to the 70s ribosome. This file contains the subunit of the first 70s ribosome.
239. " " " " " "  = 3pyr:Y *
Crystal structure of a complex containing domain 3 from the ires RNA bound to the 70s ribosome. This file contains the subunit of the second 70s ribosome.
240. " " " " " "  = 3pyt:Y *
Crystal structure of a complex containing domain 3 of crpv i RNA bound to the 70s ribosome. This file contains the 50s s the first 70s ribosome.
241. " " " " " "  = 3pyv:Y *
Crystal structure of a complex containing domain 3 of crpv i RNA bound to the 70s ribosome. This file contains the 50s s the second 70s ribosome.
242. " " " " " "  = 4kfi:2 *
Crystal structure of the 70s ribosome bound with the q253p m release factor rf2. 50s of the a subunit
243. " " " " " "  = 4kfl:2 *
Crystal structure of the 70s ribosome bound with the q253p m release factor rf2. 50s of the b subunit
244. " " " " " "  = 4l6j:Y *
Crystal structure of blasticidin s bound to thermus thermoph ribosome. This file contains the 50s subunit and blasticidi molecule from the first 70s ribosome.
245. " " " " " "  = 4l6l:Y *
Crystal structure of blasticidin s bound to thermus thermoph ribosome. This file contains the 50s subunit and blasticidi molecule from the second 70s ribosome

Number of sequences: 245

Excluded sequences

  Smith-
Waterman
score
%-tage
identity
a.a.
overlap
Seq
len
z-score E-
value
  PDB
code
Protein name
1. 112 33.3% 57 65 173.8 0.01 3bbo:Z Homology model for the spinach chloroplast 50s subunit fitte cryo-em map of the 70s chlororibosome
2. 112 38.7% 62 68 173.6 0.011 3o58:c * Yeast 80s ribosome. This entry consists of the 60s subunit o first 80s in the asymmetric unit.
3. " " " " " "  = 3o5h:c *
Yeast 80s ribosome. This entry consists of the 60s subunit o second 80s in the asymmetric unit.
4. 112 38.7% 62 69 173.5 0.011 2ww9:N * Cryo-em structure of the active yeast ssh1 complex bound to yeast 80s ribosome
5. " " " " " "  = 2wwa:N *
Cryo-em structure of idle yeast ssh1 complex bound to the yeast 80s ribosome
6. " " " " " "  = 2wwb:N *
Cryo-em structure of the mammalian sec61 complex bound to th actively translating wheat germ 80s ribosome
7. 110 39.2% 51 51 172.4 0.012 2j01:2 * Structure of the thermus thermophilus 70s ribosome complexed with mRNA, tRNA and paromomycin (part 2 of 4). This file contains the 50s subunit from molecule i.
8. " " " " " "  = 2j03:2 *
Structure of the thermus thermophilus 70s ribosome complexed with mRNA, tRNA and paromomycin (part 4 of 4). This file contains the 50s subunit from molecule ii.
9. " " " " " "  = 2jl6:2 *
Insights into translational termination from the structure of rf2 bound to the ribosome (part 2 of 4). This file contains the 50s subunit.
10. " " " " " "  = 2jl8:2 *
Insights into translational termination from the structure of rf2 bound to the ribosome (part 4 of 4). This file contains the 50s subunit.
11. " " " " " "  = 2v47:2 *
Structure of the ribosome recycling factor bound to the thermus thermophilus 70s ribosome with mRNA, asl-phe and tRNA-fmet (part 2 of 4). This file contains the 50s subunit for molecule 1.
12. " " " " " "  = 2v49:2 *
Structure of the ribosome recycling factor bound to the thermus thermophilus 70s ribosome with mRNA, asl-phe and tRNA-fmet (part 4 of 4). This file contains the 50s subunit of molecule 2.
13. " " " " " "  = 3fin:2 *
T. Thermophilus 70s ribosome in complex with mRNA, trnas and tu.Gdp.Kirromycin ternary complex, fitted to a 6.4 a cryo-e this file contains the 50s subunit.
14. " " " " " "  = 3oh5:2 *
Structure of the thermus thermophilus 70s ribosome complexed chloramphenicol. This file contains the 50s subunit of one ribosome. The entire crystal structure contains two 70s rib
15. " " " " " "  = 3oh7:2 *
Structure of the thermus thermophilus 70s ribosome complexed chloramphenicol. This file contains the 50s subunit of one ribosome. The entire crystal structure contains two 70s rib
16. " " " " " "  = 3ohj:2 *
Structure of the thermus thermophilus ribosome complexed wit erythromycin. This file contains the 50s subunit of one 70s the entire crystal structure contains two 70s ribosomes.
17. " " " " " "  = 3ohk:2 *
Structure of the thermus thermophilus ribosome complexed wit erythromycin. This file contains the 50s subunit of one 70s the entire crystal structure contains two 70s ribosomes.
18. " " " " " "  = 3ohz:2 *
Structure of the thermus thermophilus 70s ribosome complexed azithromycin. This file contains the 50s subunit of one 70s the entire crystal structure contains two 70s ribosomes.
19. " " " " " "  = 3oi1:2 *
Structure of the thermus thermophilus 70s ribosome complexed azithromycin. This file contains the 50s subunit of one 70s the entire crystal structure contains two 70s ribosomes.
20. " " " " " "  = 3oi3:2 *
Structure of the thermus thermophilus 70s ribosome complexed telithromycin. This file contains the 50s subunit of one 70 ribosome. The entire crystal structure contains two 70s rib
21. " " " " " "  = 3oi5:2 *
Structure of the thermus thermophilus 70s ribosome complexed telithromycin. This file contains the 50s subunit of one 70 ribosome. The entire crystal structure contains two 70s rib
22. 110 39.3% 61 59 171.6 0.014 1k5y:Y * Structure of the translating 80s ribosome from yeast, obtained by docking atomic models for RNA and protein components into a 15a cryo-em map. This file 1k5y contains the 60s ribosomal subunit. The file 1k5x contains the 40s ribosomal subunit, the p-site bound tRNA and the mRNA codon.
23. " " " " " "  = 1s1i:X *
Structure of the ribosomal 80s-eef2-sordarin complex from yeast obtained by docking atomic models for RNA and protein components into a 11.7 a cryo-em map. This file, 1s1i, contains 60s subunit. The 40s ribosomal subunit is in file 1s1h.
24. 110 32.8% 61 64 171.1 0.015 4adx:V The cryo-em structure of the archaeal 50s ribosomal subunit complex with initiation factor 6
25. 110 32.8% 61 65 171.0 0.015 1ffk:S * Crystal structure of the large ribosomal subunit from haloarcula marismortui at 2.4 angstrom resolution
26. " " " " " "  = 1jj2:U *
Fully refined crystal structure of the haloarcula marismortui large ribosomal subunit at 2.4 angstrom resolution
27. " " " " " "  = 1k73:W *
Co-crystal structure of anisomycin bound to the 50s ribosomal subunit
28. " " " " " "  = 1k8a:W *
Co-crystal structure of carbomycin a bound to the 50s ribosomal subunit of haloarcula marismortui
29. " " " " " "  = 1k9m:W *
Co-crystal structure of tylosin bound to the 50s ribosomal subunit of haloarcula marismortui
30. " " " " " "  = 1kc8:W *
Co-crystal structure of blasticidin s bound to the 50s ribosomal subunit
31. " " " " " "  = 1kd1:W *
Co-crystal structure of spiramycin bound to the 50s ribosomal subunit of haloarcula marismortui
32. " " " " " "  = 1kqs:U *
The haloarcula marismortui 50s complexed with a pretranslocational intermediate in protein synthesis
33. " " " " " "  = 1m1k:W *
Co-crystal structure of azithromycin bound to the 50s ribosomal subunit of haloarcula marismortui
34. " " " " " "  = 1m90:W *
Co-crystal structure of cca-phe-caproic acid-biotin and sparsomycin bound to the 50s ribosomal subunit
35. " " " " " "  = 1n8r:W *
Structure of large ribosomal subunit in complex with virginiamycin m
36. " " " " " "  = 1nji:W *
Structure of chloramphenicol bound to the 50s ribosomal subunit
37. " " " " " "  = 1q7y:W *
Crystal structure of ccdap-puromycin bound at the peptidyl transferase center of the 50s ribosomal subunit
38. " " " " " "  = 1q81:W *
Crystal structure of minihelix with 3' puromycin bound to a- site of the 50s ribosomal subunit.
39. " " " " " "  = 1q82:W *
Crystal structure of cc-puromycin bound to the a-site of the 50s ribosomal subunit
40. " " " " " "  = 1q86:W *
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.
41. " " " " " "  = 1qvf:U *
Structure of a deacylated tRNA minihelix bound to the e site of the large ribosomal subunit of haloarcula marismortui
42. " " " " " "  = 1qvg:U *
Structure of cca oligonucleotide bound to the tRNA binding sites of the large ribosomal subunit of haloarcula marismortui
43. " " " " " "  = 1s72:V *
Refined crystal structure of the haloarcula marismortui larg ribosomal subunit at 2.4 angstrom resolution
44. " " " " " "  = 1vq4:V *
The structure of the transition state analogue "daa" bound t large ribosomal subunit of haloarcula marismortui
45. " " " " " "  = 1vq5:V *
The structure of the transition state analogue "raa" bound t large ribosomal subunit of haloarcula marismortui
46. " " " " " "  = 1vq6:V *
The structure of c-hpmn and cca-phe-cap-bio bound to the lar ribosomal subunit of haloarcula marismortui
47. " " " " " "  = 1vq7:V *
The structure of the transition state analogue "dca" bound t large ribosomal subunit of haloarcula marismortui
48. " " " " " "  = 1vq8:V *
The structure of ccda-phe-cap-bio and the antibiotic sparsom to the large ribosomal subunit of haloarcula marismortui
49. " " " " " "  = 1vq9:V *
The structure of cca-phe-cap-bio and the antibiotic sparsomy to the large ribosomal subunit of haloarcula marismortui
50. " " " " " "  = 1vqk:V *
The structure of ccda-phe-cap-bio bound to the a site of the subunit of haloarcula marismortui
51. " " " " " "  = 1vql:V *
The structure of the transition state analogue "dcsn" bound large ribosomal subunit of haloarcula marismortui
52. " " " " " "  = 1vqm:V *
The structure of the transition state analogue "dan" bound t large ribosomal subunit of haloarcula marismortui
53. " " " " " "  = 1vqn:V *
The structure of cc-hpmn and cca-phe-cap-bio bound to the la ribosomal subunit of haloarcula marismortui
54. " " " " " "  = 1vqo:V *
The structure of ccpmn bound to the large ribosomal subunit marismortui
55. " " " " " "  = 1vqp:V *
The structure of the transition state analogue "rap" bound t large ribosomal subunit of haloarcula marismortui
56. 110 32.8% 61 66 171.0 0.015 1w2b:U Trigger factor ribosome binding domain in complex with 50s
57. 110 32.8% 61 65 171.0 0.015 1yhq:V * Crystal structure of azithromycin bound to the g2099a mutant ribosomal subunit of haloarcula marismortui
58. " " " " " "  = 1yi2:V *
Crystal structure of erythromycin bound to the g2099a mutant ribosomal subunit of haloarcula marismortui
59. " " " " " "  = 1yij:V *
Crystal structure of telithromycin bound to the g2099a mutan ribosomal subunit of haloarcula marismortui
60. " " " " " "  = 1yit:V *
Crystal structure of virginiamycin m and s bound to the 50s subunit of haloarcula marismortui
61. " " " " " "  = 1yj9:V *
Crystal structure of the mutant 50s ribosomal subunit of hal marismortui containing a three residue deletion in l22
62. " " " " " "  = 1yjn:V *
Crystal structure of clindamycin bound to the g2099a mutant ribosomal subunit of haloarcula marismortui
63. " " " " " "  = 1yjw:V *
Crystal structure of quinupristin bound to the g2099a mutant ribosomal subunit of haloarcula marismortui
64. " " " " " "  = 2otj:V *
13-deoxytedanolide bound to the large subunit of haloarcula marismortui
65. " " " " " "  = 2otl:V *
Girodazole bound to the large subunit of haloarcula marismor
66. " " " " " "  = 2qa4:V *
A more complete structure of the the l7/l12 stalk of the haloarcula marismortui 50s large ribosomal subunit
67. " " " " " "  = 2qex:V *
Negamycin binds to the wall of the nascent chain exit tunnel 50s ribosomal subunit
68. " " " " " "  = 3cc2:V *
The refined crystal structure of the haloarcula marismortui ribosomal subunit at 2.4 angstrom resolution with rrna sequ the 23s rrna and genome-derived sequences for r-proteins
69. " " " " " "  = 3cc4:V *
Co-crystal structure of anisomycin bound to the 50s ribosoma
70. " " " " " "  = 3cc7:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation c2487u
71. " " " " " "  = 3cce:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation u2535a
72. " " " " " "  = 3ccj:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation c2534u
73. " " " " " "  = 3ccl:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation u2535c. Density for anisomycin is visible but not in model.
74. " " " " " "  = 3ccm:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation g2611u
75. " " " " " "  = 3ccq:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation a2488u
76. " " " " " "  = 3ccr:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation a2488c. Density for anisomycin is visible but not in the model.
77. " " " " " "  = 3ccs:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation g2482a
78. " " " " " "  = 3ccu:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation g2482c
79. " " " " " "  = 3ccv:V *
Structure of anisomycin resistant 50s ribosomal subunit: 23s mutation g2616a
80. " " " " " "  = 3cd6:V *
Co-cystal of large ribosomal subunit mutant g2616a with cc-p
81. " " " " " "  = 3cma:V *
The structure of cca and cca-phe-cap-bio bound to the large subunit of haloarcula marismortui
82. " " " " " "  = 3cme:V *
The structure of ca and cca-phe-cap-bio bound to the large r subunit of haloarcula marismortui
83. " " " " " "  = 3cpw:U *
The structure of the antibiotic linezolid bound to the large ribosomal subunit of haloarcula marismortui
84. " " " " " "  = 3cxc:U *
The structure of an enhanced oxazolidinone inhibitor bound to the 50s ribosomal subunit of h. Marismortui
85. " " " " " "  = 3g4s:V *
Co-crystal structure of tiamulin bound to the large ribosoma
86. " " " " " "  = 3g6e:V *
Co-crystal structure of homoharringtonine bound to the large subunit
87. " " " " " "  = 3g71:V *
Co-crystal structure of bruceantin bound to the large riboso subunit
88. " " " " " "  = 3i55:V *
Co-crystal structure of mycalamide a bound to the large ribosomal subunit
89. " " " " " "  = 3i56:V *
Co-crystal structure of triacetyloleandomcyin bound to the large ribosomal subunit
90. " " " " " "  = 3ow2:U *
Crystal structure of enhanced macrolide bound to 50s ribosom
91. " " " " " "  = 4hub:V *
The re-refined crystal structure of the haloarcula marismort ribosomal subunit at 2.4 angstrom resolution: more complete of the l7/l12 and l1 stalk, l5 and lx proteins
92. 112 38.7% 62 118 170.5 0.016 3izc:c * Localization of the large subunit ribosomal proteins into a cryo-em map of saccharomyces cerevisiae translating 80s rib
93. " " " " " "  = 3izs:c *
Localization of the large subunit ribosomal proteins into a cryo-em map of saccharomyces cerevisiae translating 80s rib
94. 112 38.7% 62 119 170.4 0.016 3u5e:h * The structure of the eukaryotic ribosome at 3.0 a resolution entry contains proteins of the 60s subunit, ribosome a
95. " " " " " "  = 3u5i:h *
The structure of the eukaryotic ribosome at 3.0 a resolution entry contains proteins of the 60s subunit, ribosome b
96. " " " " " "  = 4b6a:h *
Cryo-em structure of the 60s ribosomal subunit in complex with arx1 and rei1
97. " " " " " "  = 4byn:h *
Cryo-em reconstruction of the 80s-eif5b-met-itrnamet eukaryo translation initiation complex
98. " " " " " "  = 4byu:h *
Cryo-em reconstruction of the 80s-eif5b-met-itrnamet eukaryotic translation initiation complex
99. 109 34.4% 64 66 169.5 0.018 1vvk:W Structure of the methanococcus jannaschii ribosome-secyebeta complex (secyebeta + 50s ribosomal proteins)
100. 109 34.4% 64 72 169.1 0.019 3j21:W Promiscuous behavior of proteins in archaeal ribosomes revea cryo-em: implications for evolution of eukaryotic ribosomes ribosomal proteins)
101. 108 33.3% 60 64 168.3 0.021 2go5:5 * Structure of signal recognition particle receptor (sr) in complex with signal recognition particle (srp) and ribosome nascent chain complex
102. " " " " " "  = 2j37:5 *
Model of mammalian srp bound to 80s rncs
103. 109 33.3% 63 124 166.0 0.028 3iz5:c * Localization of the large subunit ribosomal proteins into a cryo-em map of triticum aestivum translating 80s ribosome
104. " " " " " "  = 3izr:c *
Localization of the large subunit ribosomal proteins into a cryo-em map of triticum aestivum translating 80s ribosome
105. " " " " " "  = 3j61:h *
Localization of the large subunit ribosomal proteins into a cryo-em map of triticum aestivum translating 80s ribosome
106. 102 35.0% 60 61 160.2 0.059 2zkr:v Structure of a mammalian ribosomal 60s subunit within an 80s obtained by docking homology models of the RNA and proteins 8.7 a cryo-em map
107. 102 35.0% 60 123 156.2 0.098 3j3b:h Structure of the human 60s ribosomal proteins
108. 91 33.9% 62 123 140.8 0.71 3j39:h Structure of the d. Melanogaster 60s ribosomal proteins
109. 84 33.3% 57 123 130.9 2.5 4a17:U * T.Thermophila 60s ribosomal subunit in complex with initiation factor 6. This file contains 5s rrna, 5.8s rrna and proteins of molecule 2.
110. " " " " " "  = 4a1a:U *
T.Thermophila 60s ribosomal subunit in complex with initiation factor 6. This file contains 5s rrna, 5.8s rrna and proteins of molecule 3.
111. " " " " " "  = 4a1c:U *
T.Thermophila 60s ribosomal subunit in complex with initiation factor 6. This file contains 5s rrna, 5.8s rrna and proteins of molecule 4.
112. " " " " " "  = 4a1e:U *
T.Thermophila 60s ribosomal subunit in complex with initiation factor 6. This file contains 5s rrna, 5.8s rrna and proteins of molecule 1
113. 83 32.6% 46 255 125.4 5.1 3pry:A Crystal structure of the middle domain of human hsp90-beta r 2.3 a resolution
114. 83 25.4% 67 732 119.5 11 1pwq:A Crystal structure of anthrax lethal factor complexed with thioacetyl-tyr-pro-met-amide, a metal-chelating peptidyl small molecule inhibitor
115. 78 27.4% 62 514 114.5 21 1yqy:A Structure of b. Anthrax lethal factor in complex with a hydroxamate inhibitor
116. 78 27.4% 62 512 114.5 21 4dv8:A Anthrax lethal factor metalloproteinase in complex with the acid based small molecule pt8421
117. 69 28.6% 56 60 113.9 22 3e7l:A Crystal structure of sigma54 activator ntrc4's DNA binding domain
118. 74 40.0% 35 217 113.7 23 2d2s:A Crystal structure of the exo84p c-terminal domains
119. 74 31.8% 44 218 113.7 23 3k66:A * X-ray crystal structure of the e2 domain of c. Elegans apl-1
120. " " " " " "  = 3k6b:A *
X-ray crystal structure of the e2 domain of apl-1 from c. Elegans, in complex with sucrose octasulfate (sos)
121. 69 28.6% 56 63 113.6 23 3e7l:D Crystal structure of sigma54 activator ntrc4's DNA binding domain
122. 69 28.6% 56 68 113.2 24 4fth:A Crystal structure of ntrc4 DNA-binding domain bound to doubl DNA
123. 78 27.4% 62 725 112.5 27 1j7n:A Anthrax toxin lethal factor
124. 78 27.4% 62 732 112.5 27 1pwp:A Crystal structure of the anthrax lethal factor complexed with small molecule inhibitor nsc 12155
125. 78 27.4% 62 733 112.5 27 1pwv:A Crystal structure of anthrax lethal factor wild-type protein complexed with an optimised peptide substrate.
126. 78 27.4% 62 726 112.5 27 1pww:A Crystal structure of anthrax lethal factor active site mutant protein complexed with an optimised peptide substrate in the presence of zinc.
127. 78 27.4% 62 728 112.5 27 1zxv:A X-ray crystal structure of the anthrax lethal factor bound to a small molecule inhibitor, bi-mfm3, 3-{5-[5-(4-chloro- phenyl)-furan-2-ylmethylene]-4-oxo-2-thioxo-thiazolidin-3- yl}-propionic acid.
128. 78 27.4% 62 748 112.4 27 1jky:A Crystal structure of the anthrax lethal factor (lf): wild- type lf complexed with the n-terminal sequence of mapkk2
129. 78 27.4% 62 747 112.4 27 1pwu:A Crystal structure of anthrax lethal factor complexed with (3-(n-hydroxycarboxamido)-2-isobutylpropanoyl-trp- methylamide), a known small molecule inhibitor of matrix metalloproteases.
130. 75 31.1% 61 368 112.1 28 4akk:A Structure of the nasr transcription antiterminator
131. 68 28.0% 50 69 111.7 30 3zdm:A Crystal structure of the sgt2 n domain and the get5 ubl doma complex
132. 74 36.4% 33 313 111.6 30 4h7p:A Crystal structure of a putative cytosolic malate dehydrogena leishmania major friedlin
133. 74 36.4% 33 320 111.5 30 4i1i:A Crystal structure of a putative cytosolic malate dehydrogena leishmania major friedlin in complex with NAD
134. 72 37.2% 43 196 111.5 31 4jcv:A Crystal structure of the recor complex in an open conformati
135. 68 28.0% 50 74 111.3 31 2lxb:A * Solution structure of the sgt2 homodimerization domain
136. " " " " " "  = 2lxc:B *
Solution structure of the complex between the sgt2 homodimer domain and the get5 ubl domain
137. 68 28.0% 50 79 111.0 33 4asv:A * Solution structure of the n-terminal dimerisation domain of
138. " " " " " "  = 4asw:A *
Structure of the complex between the n-terminal dimerisation domain of sgt2 and the ubl domain of get5
139. 67 29.1% 55 61 111.0 32 4fth:B Crystal structure of ntrc4 DNA-binding domain bound to doubl DNA
140. 74 25.9% 58 378 110.6 34 3dpl:C Structural insights into nedd8 activation of cullin-ring ligases: conformational control of conjugation.
141. 74 25.9% 58 376 110.6 34 3dqv:C Structural insights into nedd8 activation of cullin-ring ligases: conformational control of conjugation
142. 72 30.0% 60 268 109.7 38 4bm5:A Chloroplast inner membrane protein tic110
143. 66 37.5% 48 70 108.8 43 1wcn:A * Nmr structure of the carboxyterminal domains of escherichia coli nusa
144. " " " " " "  = 2jzb:B *
Solution structure of the complex between e.Coli nusa-ar2 and rnap-actd
145. 72 31.1% 61 334 108.5 45 2hjs:A The structure of a probable aspartate-semialdehyde dehydroge pseudomonas aeruginosa
146. 66 31.6% 38 83 107.9 49 4hpl:B Pcgf1 ub fold (rawul)/bcor pufd complex

Number of sequences: 146

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