P36675 (ARFA_ECOLI) Escherichia coli (strain K12)
Alternative ribosome-rescue factor A UniProtKBInterProSTRINGInteractive Modelling
72 aa; Sequence (Fasta) ;
20 identical sequences
Available Structures
11 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
|---|---|---|---|---|---|---|
| 3.2 A cryo-EM ArfA-RF2 ribosome rescue complex (Structure II) |
Heteromer P02358; P02359; P02413; P07012; P0A7J3; P0A7J7; P0A7K6; P0A7L0; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | 360×MG; 1×ZN; | |||
| Structural Basis of Co-translational Quality Control by ArfA and RF2 Bound to Ribosome |
Heteromer P02358; P02359; P02413; P07012; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | 124×MG; 1×ZN; | |||
| Structural Basis of Co-translational Quality Control by ArfA and RF2 Bound to Ribosome |
Heteromer P07012; P0A7S3; P0A7V3; P0A7V8; P0A7W1; | 100 | ||||
| Conformation of methylated GGQ in the peptidyl transferase center during translation termination |
Heteromer P02358; P02359; P02413; P07012; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | 317×MG; 2×ZN; | |||
| Cryo-EM structure of 70S ribosome stalled with TnaC peptide and RF2 |
Heteromer P02358; P02359; P02413; P07012; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0AD89; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | 308×MG; 1×TRP; 2×ZN; | |||
| Structure of ArfA and RF2 bound to the 70S ribosome (accommodated state) |
Heteromer P02358; P02359; P02413; P07012; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | 440×MG; 1×FME; 2×ZN; | |||
| Structural basis for ArfA-RF2 mediated translation termination on stop-codon lacking mRNAs |
Heteromer P02358; P02359; P02413; P07012; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | ||||
| Mechanistic insights into the alternative translation termination by ArfA and RF2 |
Heteromer P02358; P02359; P02413; P07012; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | ||||
| 3.2 A cryo-EM ArfA-RF2 ribosome rescue complex (Structure I) |
Heteromer P02358; P02359; P02413; P07012; P0A7J3; P0A7J7; P0A7K6; P0A7L0; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 100 | 348×MG; 1×ZN; | |||
| Structure of ArfA(A18T) and RF2 bound to the 70S ribosome (pre-accommodated state) |
Heteromer P02358; P02359; P02413; P07012; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 96.88 | 438×MG; 1×FME; 2×ZN; | |||
| Structure of ArfA and TtRF2 bound to the 70S ribosome (pre-accommodated state) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7M9; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0A7R5; P0A7R9; P0A7S3; P0A7S9; P0A7T3; P0A7T7; P0A7U3; P0A7U7; P0A7V0; P0A7V3; P0A7V8; P0A7W1; P0A7W7; P0A7X3; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0ADZ4; P0AG44; P0AG48; P0AG51; P0AG55; P0AG59; P0AG63; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; Q5SM01; | 100 | 450×MG; 1×FME; 2×ZN; | |||
1 SWISS-MODEL model
| Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 5u9f.1.D | monomer | 0.55 | 100.00 | |||