A0A080FR68 (A0A080FR68_ECOLX) Escherichia coli 1-392-07_S4_C3

50S ribosomal protein L31 UniProtKBInterProInteractive Modelling

70 aa; Sequence (Fasta) 179 identical sequences

Sequence Features

 16Zinc.
 18Zinc.
 37Zinc.
 40Zinc.
 1-65Ribosomal protein L31
IPR002150PF01197

Sequence Alignments

Experimental structures

DescriptionOligo-stateLigandsStructureRangeDownloadAssess
Crystal structure of the bacterial ribosome from Escherichia coli at 3.5 A resolution. Heteromer
P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ5; P0A7T3; P0AG64; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P68679; P68919; P60422; P60438; P60723; P62399; P0AG58; P0A7R1; P0AA11; P0ADY5; P02413; P0ADY9; P0AG46; P0C018; P0A7K6; P0A7L3; P0AG50; P61175; P0ADZ3; P60624; P0A7L8; P0A7M6; P0AG52; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J7;
170×MG;4v4q1-70
'Crystal structure of the bacterial ribosome from Escherichia coli in complex with the antibiotic... Heteromer
P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P68679; P68919; P60422; P60438; P60723; P62399; P0AG58; P0A7R1; P0AA11; P0ADY5; P02413; P0ADY9; P0AG46; P0C018; P0A7K6; P0A7L3; P0AG50; P61175; P0ADZ3; P60624; P0A7L8; P0A7M6; P0AG52; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J7;
KSG; 170×MG;4v4h1-70
Structure of PDF binding helix in complex with the ribosome Heteromer
P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A6K3; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M6; P0AG51; P0A7V1; P0A7V4; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X4; P0A7R6; P0A7R9; P0A7S4; P0A7T1; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T9; P0A7U3; P0A7U7; P68680;
170×MG;4v5b1-70
'Structural characterization of mRNA-tRNA translocation intermediates (class 4b of the six classes)' Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
TRP;FME;4v6p1-70
'Structural characterization of mRNA-tRNA translocation intermediates (class 5 of the six classes)' Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
TRP;FME;4v6q1-70
'Structural characterization of mRNA-tRNA translocation intermediates (class 6 of the six classes)' Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
TRP;FME;4v6r1-70
'Structural characterization of mRNA-tRNA translocation intermediates (class 3 of the six classes)' Heteromer
P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
4v6s1-70
Tetracycline resistance protein Tet(O) bound to the ribosome Heteromer
P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7V0; P0A7U7; P68679; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P10952; P0A7L0; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P60422; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P60438; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P60723; P62399; P0AG55; P0A7R1;
4v6v1-70
The Hsp15 protein fitted into the low resolution Cryo-EM map of the 50S.nc-tRNA.Hsp15 complex Heteromer
P68919; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P0A7L8; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
110×MG;3bbx1-70
'Coordinates of the b1b bridge-forming protein structures fitted into the Cryo-EM map of E.coli 7... Heteromer
D3QTD7; D3QTE7;
3iyx1-70
Coordinates of the b1b bridge-forming protein structures fitted into the Cryo-EM map of EFG.GDPNP... Heteromer
D3QTE7; D3QTD7;
3iyy1-70
Activation of GTP Hydrolysis in mRNA-tRNA Translocation by Elongation Factor G Heteromer
P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7V0; P0A7U7; P68679; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A6M8; P0A7L0; P0A7K6; P60422; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7J3; P0A7M6; P60438; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P60723; P0A7J7; P62399; P0AG55; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018;
GTP;3j9z1-70
Structure of the E. coli ribosome in the Pre-accommodation state Heteromer
P0A7V0; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P0A7V3; P68679; P0A7V8; P0A7W1; P02358; P02359; Q3YWV3; P0A7X3; P0A7R5; P68919; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60422; P60624; P0A7L8; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P60438; P35024; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10;
4v651-70
Structure of the E. coli ribosome and the tRNAs in Post-accommodation state Heteromer
P0A7V0; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P0A7V3; P68679; P0A7V8; P0A7W1; P02358; P02359; Q3YWV3; P0A7X3; P0A7R5; P68919; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60422; P60624; P0A7L8; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P60438; P35024; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10;
4v661-70
Activation of GTP Hydrolysis in mRNA-tRNA Translocation by Elongation Factor G Heteromer
P0A7U3; P0A7U7; P68679; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P0A7T7; P0A6M8; P60422; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7L0; P60438; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P60723; P62399; P0AG55; P0A7J3; P02413; P0A7J7; P0AA10; P0A7R1; P0ADY7; P0AG44; P0ADY3; P0C018; P0A7K6; P0A7L3; P0AG48;
GTP;3ja11-70
Structural insights into cognate vs. near-cognate discrimination during decoding. Heteromer
P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0CE48; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
4v6k1-70
Structural insights into cognate vs. near-cognate discrimination during decoding. Heteromer
P0CE48; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1;
4v6l1-70
'Structural characterization of mRNA-tRNA translocation intermediates (50S ribosome of class2 of ... Heteromer
P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
TRP;FME;4v6n1-70
'Structural characterization of mRNA-tRNA translocation intermediates (class 4a of the six classes)' Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; Q8X9M2; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
TRP;FME;4v6o1-70
50S subunit with EF-G(GDPNP) and RRF bound Heteromer
P68919; P60422; P60438; P60723; P62399; P0AG55; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P0A7L8; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J7; P0A7R1; P0A7L0; P0A6M8; P0A805;
2rdo1-70
70S Elongation Competent Ribosome Heteromer
D7XH79; H4KMS9; P60438; D7Z9F6; V0YP03; L2VF14; D7ZI15; V0ALD2; A0A1X3JBQ6; A0A037Y8L6; P0ADY7; H4KMQ6; D7Z9H1; J7R4G2; S1EK76; D7ZEN7; D7Z9G0; A0A0A8UEU4; A0A0G3K7Z5; D6IE98; D7Z9G3; A0A029IJY9; A0A069XK10; D6I2Q0; B7MGC4; I2RJ64; A0A0E2L017; A0A0G3K9Z8; A0A376HTV6; L3PZ69; B6I217; S1CG62; A0A2S5ZT99; D8A1L7; T9TH92; D7X302; P0A7R9; V6FZ95; A0A1X3KX08; A0A090BZT4; C3SSQ8; B7MIU7; A0A080IK26; L3BXG0; F4SQ43; T6N332; U9ZNW8; A0A0K5Z365;
6o9j1-70
EM structure of ribosome-SRP-FtsY complex in closed state Heteromer
P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0AGD7; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M6; P0AG51;
110×MG;5aka1-70
MODEL OF E. COLI SRP BOUND TO 70S RNCS Heteromer
P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; O62798; P0AGD7; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M6; P0AG51;
111×MG;2j281-70
70S ribosome-EF-Tu H84A complex with GTP and near-cognate tRNA (Complex C2) Heteromer
B7MCT2; B7MCT5; B7MCT4; B7MCS3; B7MCS0; B7MLK8; B7MIW9; B7MBZ2; B7MCS5; A8A5A6; B7MCS8; B7MCR0; B7MCR9; B7MIU4; B7MAS6; B7MBV5; B7MCT0; P0ADZ2; B7L4J5; B7LAK9; B7MBV4; B7MFJ8; B7MCS7; B7MCR7; B7MJ76; B7MFJ7; B7MGC4; B7MAS7; A8A5A4; B7MIX1; B7MBF0; B7MCS9; B7MCR2; P0A7W3; B7NGD4; B7MCV6; B7MCS1; B7MBZ1; B7MCT6; B7MCR3; B7MCV7; P0A7T1; B7MCS2; B7MB86; B7MIU7; B7MCS6; B7MLK7; B7MCT1; B7MAE3; A8A4M2; A7ZUJ2;
GTP; 1480×MG;FME;K;PHE;5wf01-66
Cryo-EM structure of stringent response factor RelA bound to ErmCL-stalled ribosome complex Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U7; P68679; P0A7J3; P0A7J7; P0AG59; P0A7U3; P0AG20;
5l3p1-66
Structural basis for ArfA-RF2 mediated translation termination on stop-codon lacking mRNAs Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P36675; P07012;
5mgp1-66
'70S ribosome bound with near-cognate ternary complex base-paired to A site codon, open 30S (Stru... Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P0CE47;
GCP;FME;LYS;5uyp1-66
'70S ribosome bound with near-cognate ternary complex base-paired to A site codon, closed 30S (St... Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P0CE47;
GCP;MG;FME;LYS;5uyq1-66
'Cryo-EM structure of the proline-rich antimicrobial peptide Api137 bound to the terminating ribo... Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7I0; Q8WSY8;
5o2r1-66
Cryo-EM structure of the Escherichia coli 70S ribosome in complex with antibiotic Evernimycin, mR... Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7K2; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P21598;
EVN;5kcs1-66
70S ribosome-EF-Tu H84A complex with GTP and near-cognate tRNA (Complex C4) Heteromer
B7MCT2; B7MCT5; B7MCT4; B7MCS3; B7MCS0; B7MLK8; B7MIW9; B7MBZ2; B7MCS5; A8A5A6; B7MCS8; B7MCR0; B7MCR9; B7MIU4; B7MAS6; B7MBV5; B7MCT0; P0ADZ2; B7L4J5; B7LAK9; B7MBV4; B7MFJ8; B7MCS7; B7MCR7; B7MJ76; B7MFJ7; B7MGC4; B7MAS7; A8A5A4; B7MIX1; B7MBF0; B7MCS9; B7MCR2; P0A7W3; B7NGD4; B7MCV6; B7MCS1; B7MBZ1; B7MCT6; B7MCR3; B7MCV7; P0A7T1; B7MCS2; B7MB86; B7MIU7; B7MCS6; B7MLK7; B7MCT1; B7MAE3; A8A4M2; A7ZUJ2;
GTP; 1471×MG;FME;K;PHE;5wfs1-66
Structure of RelA bound to ribosome in absence of A/R tRNA (Structure I) Heteromer
P0AG20; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
5kps1-66
70S ribosome-EF-Tu H84A complex with GppNHp Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0CE48;
1904×MG;FME;K;PHE;GNP;5wdt1-66
Polyproline-stalled ribosome in the presence of elongation-factor P (EF-P) Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7L0; P0A6N4;
PRO;6enu1-66
Structure of RelA bound to ribosome in presence of A/R tRNA (Structure II) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0AG20;
5kpv1-66
Structure of RelA bound to ribosome in presence of A/R tRNA (Structure III) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0AG20;
5kpw1-66
Structure of RelA bound to ribosome in presence of A/R tRNA (Structure IV) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0AG20;
5kpx1-66
'Cryo-EM structure of tetracycline resistance protein TetM bound to a translating E.coli ribosome' Heteromer
P0A7V0; P0A7V8; P0A7W1; P02358; P0A7W7; P0A7R9; P0A7S3; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U7; P68679; P21598; P0A7V3; P02359; P0A7X3; P0A7R5; P0A7S9; P0AG59; P0A7U3; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3;
3j9y1-66
70S ribosome-EF-Tu wt complex with GppNHp Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0CE48;
1618×MG;FME;K;PHE;GNP;5we41-66
70S ribosome-EF-Tu H84A complex with GTP and cognate tRNA Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; A7ZSJ9; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0CE48;
GTP; 662×MG;FME;K;PHE;5we61-66
70S structure prior to bypassing Heteromer
P23992; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3;
5np61-66
Structure of tmRNA SmpB bound in A site of E. coli 70S ribosome Heteromer
P0A832; V0A5J4; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; A0A379XJZ2; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; D7X2Z6; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; E3PKZ6; A0A0E0XV41; D7XAL4; P0A7N9; P0A7P5; P0A7Q1; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; A0A029HJ91; P0A7R5; P0A7R9; F5NAB8; H4IXV7; P0AG59; P0ADZ4; S0UHH0; P0AG63; P0A7T7; U9ZUL7; P0A7U7; P68679;
439×MG;ZN;6q971-66
70S ribosome with S1 domains 1 and 2 (Class 1) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P0AG67;
FME;6bu81-66
Structure of tmRNA SmpB bound past E site of E. coli 70S ribosome Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; F5NAB8; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; A0A0K4SFK5;
437×MG;ZN;6q9a1-66
Structure of the 70S ribosome with SECIS-mRNA and P-site tRNA (Initial complex, IC) Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P60422; P60438; P60723; P62399; P0AG55; P0A7J7; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
ZN;5lza1-66
Structure of SelB-Sec-tRNASec bound to the 70S ribosome in the initial binding state (IB) Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P14081; P60422; P60438; P60723; P62399; P0AG55; P0A7J7; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
ZN;GNP;FME;SEC;MG;5lzb1-66
E.coli RF1 bound to E.coli 70S ribosome in response to UAU sense A-site codon Heteromer
B7MIX0; B7MCT2; B7MCT5; B7MCT4; B7MCS3; B7MCS0; B7MLK8; B7MIX1; B7MIW9; B7MBZ2; B7MCS5; P02413; B7MCS8; B7N179; B7MCR9; B7MIU4; B7MAS6; B7MBV5; B7MCT0; B7MCT3; P60624; P68919; B7MBV4; B7MFJ8; B7MCS7; B7MCR7; B7MJ76; B7MFJ7; B7MGC4; B7MAS7; P0A7Q6; B7MKB3; B7MBF0; B7MCS9; B7MCR2; P0A7W1; P02358; B7MCV6; B7MCS1; B7MBZ1; B7MCT6; B7MCR3; B7MCV7; P0A7S9; B7MCS2; B7MB86; B7MIU7; B7MCS6; B7MLK7; B7MCT1; B7MAE3; P68679;
6dnc1-66
Structure of SelB-Sec-tRNASec bound to the 70S ribosome in the codon reading state (CR) Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P14081; P60422; P60438; P60723; P62399; P0AG55; P0A7J7; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
ZN;GNP;FME;SEC;MG;5lzc1-66
Structure of SelB-Sec-tRNASec bound to the 70S ribosome in the GTPase activated state (GA) Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P14081; P60422; P60438; P60723; P62399; P0AG55; P0A7J7; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
ZN;CL; 147×MG;GNP;SEC;FME;5lzd1-66
Structure of the 70S ribosome with Sec-tRNASec in the classical pre-translocation state (C) Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P60422; P60438; P60723; P62399; P0AG55; P0A7J7; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
ZN;5lze1-66
3.2 A cryo-EM ArfA-RF2 ribosome rescue complex (Structure II) Heteromer
P36675; P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P07012; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
360×MG;ZN;5u9f1-66
Cryo-EM structure of a polyproline-stalled ribosome in the absence of EF-P Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P60422; P60438; P60723; P62399; P0AG55; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
6enf1-66
Structure of the 70S ribosome with fMetSec-tRNASec in the hybrid pre-translocation state (H) Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P60422; P60438; P60723; P62399; P0AG55; P0A7J7; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6;
ZN;5lzf1-66
3.2 A cryo-EM ArfA-RF2 ribosome rescue complex (Structure I) Heteromer
P36675; P0A7L0; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P07012; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
348×MG;ZN;5u9g1-66
'Conformation of methylated GGQ in the peptidyl transferase center during translation termination' Heteromer
B7MCT2; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; B7M1M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; B7MCT1; P0A7U7; P68679; P07012; P36675;
317×MG;ZN;6c4i1-66
Polyproline-stalled ribosome in the presence of A+P site tRNA and elongation-factor P (EF-P) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A6N4; P0A7L0;
PRO;6enj1-66
70S ribosome-EF-Tu H84A complex with GTP and near-cognate tRNA (Complex C3) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0CE48;
GTP; 1413×MG;FME;K;PHE;5wfk1-66
'70S ribosome bound with cognate ternary complex not base-paired to A site codon (Structure I)' Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P0CE47;
GCP;5uyk1-66
70S ribosome bound with cognate ternary complex base-paired to A site codon (Structure II) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P0CE47;
GCP;FME;PHE;5uyl1-66
'70S ribosome bound with cognate ternary complex base-paired to A site codon, closed 30S (Structu... Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P0CE47;
GCP; 383×MG;FME;ZN;PHE;5uym1-66
E. coli 70S d2d8 stapled ribosome Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
436×MG;ZN;6hrm1-66
Structure of a hibernating 100S ribosome reveals an inactive conformation of the ribosomal protei... Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0AFW2; P0AG67; P0AFX0;
6h4n1-66
'70S ribosome bound with near-cognate ternary complex not base-paired to A site codon (Structure ... Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0A7L0; P0CE47;
GCP;5uyn1-66
RF2 accommodated state bound 70S complex at long incubation time Heteromer
A0A029IK04; P60438; D7Z9F6; V0AXZ0; A0A1X3JB47; D7ZI15; D7ZET0; D7Z9G5; A0A037Y8L6; P0ADY7; A0A2T1LEK9; A0A0F6C9R0; D6IC61; S1EK76; D7ZEN7; D7Z9G0; A0A029IKB7; A0A0G3K7Z5; D7XH79; U9XYH0; V8F9Y0; A0A1X3JBH6; J7R6H0; A0A0G3K5Y7; H4LIZ0; B7MGC4; I2RJ64; A0A0E2L017; C3TPN2; A0A376HTV6; L3PZ69; A0A073FR78; A0A376ZL25; S1D5F0; D8A1L7; T9TH92; J7RLQ6; P0A7R9; A0A377DM03; A0A1X3JB38; J7R6H7; D7XN21; B7MIU7; A0A080IK26; D7ZI16; A0A0A8UF41; I4T5W9; L3C5D9; A0A2S5ZJX2;
12×MG;ZN;6ouo1-66
RF2 accommodated state bound Release complex 70S at 24 ms Heteromer
A0A029IK04; P60438; D7Z9F6; V0AXZ0; A0A1X3JB47; D7ZI15; D7ZET0; D7Z9G5; A0A037Y8L6; P0ADY7; A0A2T1LEK9; A0A0F6C9R0; D6IC61; S1EK76; D7ZEN7; D7Z9G0; A0A029IKB7; A0A0G3K7Z5; D7XH79; U9XYH0; V8F9Y0; A0A1X3JBH6; E3PKY6; A0A0G3K5Y7; H4LIZ0; B7MGC4; I2RJ64; A0A0E2L017; C3TPN2; A0A376HTV6; L3PZ69; A0A073FR78; A0A376ZL25; S1D5F0; D8A1L7; T9TH92; J7RLQ6; P0A7R9; A0A377DM03; A0A1X3JB38; J7R6H7; D7XN21; B7MIU7; A0A080IK26; D7ZI16; A0A0A8UF41; I4T5W9; L3C5D9; A0A2S5ZJX2;
12×MG;ZN;6ot31-66
Release complex 70S Heteromer
A0A029IK04; P60438; D7Z9F6; V0AXZ0; A0A1X3JB47; D7ZI15; D7ZET0; D7Z9G5; A0A037Y8L6; P0ADY7; A0A2T1LEK9; A0A0F6C9R0; D6IC61; S1EK76; D7ZEN7; D7Z9G0; A0A029IKB7; A0A0G3K7Z5; D7XH79; U9XYH0; V8F9Y0; A0A1X3JBH6; J7R6H0; A0A0G3K5Y7; H4LIZ0; B7MGC4; I2RJ64; A0A0E2L017; C3TPN2; A0A376HTV6; L3PZ69; A0A073FR78; A0A376ZL25; S1D5F0; D8A1L7; T9TH92; J7RLQ6; P0A7R9; L4V1L2; T6LFY5; J7R6H7; D7XN21; B7MIU7; A0A080IK26; D7ZI16; A0A0A8UF41; I4T5W9; L3C5D9;
436×MG;ZN;6ore1-66
RF1 accommodated 70S complex at 60 ms Heteromer
A0A029IK04; P60438; D7Z9F6; V0AXZ0; A0A1X3JB47; D7ZI15; D7ZET0; D7Z9G5; A0A037Y8L6; P0ADY7; A0A2T1LEK9; A0A0F6C9R0; D6IC61; S1EK76; D7ZEN7; D7Z9G0; A0A029IKB7; A0A0G3K7Z5; D7XH79; U9XYH0; V8F9Y0; A0A1X3JBH6; J7R6H0; A0A0G3K5Y7; H4LIZ0; B7MGC4; I2RJ64; A0A0E2L017; C3TPN2; A0A376HTV6; L3PZ69; A0A073FR78; A0A376ZL25; S1D5F0; D8A1L7; T9TH92; J7RLQ6; P0A7R9; L4V1L2; A0A1X3JB38; J7R6H7; D7XN21; B7MIU7; A0A080IK26; D7ZI16; A0A0A8UF41; I4T5W9; L3C5D9; A0A377MZQ1;
307×MG;ZN;6osk1-66
2.9A Structure of E. coli ribosome-EF-TU complex by cs-corrected cryo-EM Heteromer
P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0CE48; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7J3;
GDP; 333×MG;CL;KIR;ZN;NA;FME;5afi1-66
2.9 A cryo-EM structure of VemP-stalled ribosome-nascent chain complex Heteromer
A0A0P7EF65; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
5nwy1-66
Structure of ArfA and RF2 bound to the 70S ribosome (accommodated state) Heteromer
P36675; P07012; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
440×MG;FME;ZN;5mdv1-66
Structure of RelA bound to the 70S ribosome Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679; P0AG20;
MET; 299×MG;PAR;ZN;5iqr1-66
Structure of ArfA(A18T) and RF2 bound to the 70S ribosome (pre-accommodated state) Heteromer
P36675; P07012; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
438×MG;FME;ZN;5mdw1-66
Structure of the 70S ribosome (empty A site) Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
437×MG;FME;ZN;5mdz1-66
RF1 accommodated state bound Release complex 70S at long incubation time point Heteromer
A0A029IK04; P60438; D7Z9F6; V0AXZ0; A0A1X3JB47; D7ZI15; D7ZET0; D7Z9G5; A0A037Y8L6; P0ADY7; A0A2T1LEK9; A0A0F6C9R0; D6IC61; S1EK76; D7ZEN7; D7Z9G0; A0A029IKB7; A0A0G3K7Z5; D7XH79; U9XYH0; V8F9Y0; A0A1X3JBH6; J7R6H0; A0A0G3K5Y7; H4LIZ0; B7MGC4; I2RJ64; A0A0E2L017; C3TPN2; A0A376HTV6; L3PZ69; A0A080IK54; A0A376ZL25; S1D5F0; D8A1L7; T9TH92; J7RLQ6; P0A7R9; L4V1L2; A0A1X3JB38; J7R6H7; D7XN21; B7MIU7; A0A080IK26; D7ZI16; A0A0A8UF41; I4T5W9; L3C5D9; A0A377MZQ1;
436×MG;ZN;6osq1-66
Structure of tmRNA SmpB bound in P site of E. coli 70S ribosome Heteromer
U9Y9P1; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
429×MG;ZN;6q981-65
Structure of ArfA and TtRF2 bound to the 70S ribosome (pre-accommodated state) Heteromer
P36675; Q5SM01; P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60624; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7; P68679;
450×MG;FME;ZN;5mdy1-63
E. coli pH03H9 complex Heteromer
P60422; P60438; P60723; P62399; P0AG55; P0A7R1; P0A7J3; P0A7J7; P0AA10; P0ADY3; P02413; P0ADY7; P0AG44; P0C018; P0A7K6; P0A7L3; P0AG48; P61175; P0ADZ0; P60625; P68919; P0A7L8; P0A7M2; P0A7M6; P0AG51; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P02358; P02359; P0A7W7; P0A7X3; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0AG59; P0ADZ4; P0A7T3; P0AG63; P0A7T7; P0A7U3; P0A7U7;
225×MG;ZN;6by110-48