B7LS45 (B7LS45_ESCF3) Escherichia fergusonii (strain ATCC 35469 / DSM 13698 / CCUG 18766 / IAM14443 / JCM 21226 / LMG 7866 / NBRC 102419 / NCTC 12128 / CDC 0568-73)
Elongation factor Tu UniProtKBInterProInteractive Modelling
394 aa; Sequence (Fasta) ;
55 identical sequences
It is possible new templates exist for this target since these models were created.
Available Structures
40 Experimental Structures
Description | PDB ID | Oligo-state | Range | Ligands | ||
---|---|---|---|---|---|---|
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure II-A) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GTP; | ||||
Assess | ||||||
70S ribosome bound with near-cognate ternary complex base-paired to A site codon, closed 30S (Struc… |
Heteromer P02358; P02359; P02413; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×LYS; 1×MG; 1×GCP; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure II-B2) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GDP; | ||||
Assess | ||||||
70S ribosome bound with near-cognate ternary complex base-paired to A site codon, open 30S (Structu… |
Heteromer P02358; P02359; P02413; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×LYS; 1×GCP; | ||||
Assess | ||||||
70S ribosome bound with near-cognate ternary complex not base-paired to A site codon (Structure I-n… |
Heteromer P02358; P02359; P02413; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×GCP; | ||||
Assess | ||||||
70S ribosome bound with cognate ternary complex base-paired to A site codon (Structure II) |
Heteromer P02358; P02359; P02413; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GCP; | ||||
Assess | ||||||
70S ribosome bound with cognate ternary complex base-paired to A site codon, closed 30S (Structure … |
Heteromer P02358; P02359; P02413; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 383×MG; 2×ZN; 1×FME; 1×PHE; 1×GCP; | ||||
Assess | ||||||
70S ribosome bound with cognate ternary complex not base-paired to A site codon (Structure I) |
Heteromer P02358; P02359; P02413; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×GCP; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure II-B1) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GDP; | ||||
Assess | ||||||
CRYSTAL STRUCTURE OF ELONGATION FACTOR, TU (EF-TU-MGGDP) COMPLEXED WITH GE2270A, A THIAZOLYL PEPTID… |
Heteromer P0CE47; Q7M0J8; | 1×MG; 1×GDP; 19×ACT; | ||||
Assess | ||||||
Ef-tu (escherichia coli) in complex with nvp-ldi028 |
Heteromer P0CE47; Q7M0J8; | 1×MG; 1×GDP; | ||||
Assess | ||||||
EF-Tu (Escherichia coli) in complex with NVP-LFF571 |
Heteromer P0CE47; Q7M0J8; | 1×GDP; 1×MG; | ||||
Assess | ||||||
Elongation factor Tu:Ts complex with partially bound GDP |
Heteromer P0A6P1; P0CE47; | 1×GDP; 2×GOL; | ||||
Assess | ||||||
Elongation Factor Tu:Ts complex with a bound phosphate |
Heteromer A0A0M3KKV1; C3TPM7; | 1×PO4; 2×GOL; 2×PB; 1×TRS; | ||||
Assess | ||||||
Crystal structure of Acinetobacter baumannii DsbA in complex with EF-Tu |
Heteromer P0CE47; | 1×MG; 1×GDP; 1×GOL; | ||||
Assess | ||||||
Elongation factor Tu:Ts complex with a bound GDP |
Heteromer A0A0M3KKV1; C3TPM7; | 1×GDP; 2×CL; 2×GOL; | ||||
Assess | ||||||
Elongation factor Tu:Ts complex with bound GDPNP |
Heteromer A0A0M3KKV1; A0A0M3KKV2; | 1×GNP; 1×GOL; | ||||
Assess | ||||||
Ef-tu (escherichia coli) in complex with nvp-ldk733 |
Heteromer P0CE47; Q7M0J8; | 1×GDP; 1×MG; | ||||
Assess | ||||||
Complex structure of viral RNA polymerase |
Heteromer P0A6P1; P0AG67; P0CE47; P14647; | 2×SO4; | ||||
Assess | ||||||
Elongation factor Tu:Ts complex in a near GTP conformation. |
Heteromer P0A6P1; P0CE47; | 1×GNP; 1×PUL; 1×MG; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure III-B) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GDP; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure III-C) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GDP; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure III-A) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GTP; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure II-C1) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GDP; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure II-C2) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; 1×PHE; 1×GDP; | ||||
Assess | ||||||
Contact-dependent inhibition system from Escherichia coli NC101 - ternary CdiA/CdiI/EF-Tu complex (… |
Heteromer P0CE47; P0CE48; P0DSI1; P0DSM8; | 2×GDP; | ||||
Assess | ||||||
Contact-dependent inhibition system from Escherichia coli NC101 - ternary CdiA/CdiI/EF-Tu complex (… |
Heteromer P0CE47; P0DSI1; P0DSM8; | 2×CL; 2×SO4; | ||||
Assess | ||||||
Cryo-EM of elongating ribosome with EF-Tu*GTP elucidates tRNA proofreading (Cognate Structure II-D) |
Heteromer P02358; P02359; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L0; 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; P0CE47; P60422; P60438; P60624; P60723; P61175; P62399; P68679; P68919; | 1×FME; | ||||
Assess | ||||||
Trypsin-modified Elongation Factor Tu in complex with tetracycline | homo-2-mer | 1×MG; 1×SO4; 1×GDP; 3×NA; 1×TAC; 1×GLV; | ||||
Assess | ||||||
Trypsin-modified Elongation Factor Tu in complex with tetracycline at 2.8 Angstrom resolution | homo-2-mer | 1×MG; 1×GDP; 1×TAC; | ||||
Assess | ||||||
EF-TU (ESCHERICHIA COLI) IN COMPLEX WITH THIOMURACIN ANALOG | monomer | 1×GDP; 2×MG; 1×SO4; | ||||
Assess | ||||||
ef-tu (Escherichia coli) complexed with nvp-ldu796 | monomer | 2×MG; 1×GDP; 1×SO4; | ||||
Assess | ||||||
Crystal Structure Determination of E. coli Elongation Factor, Tu using a Twinned Data Set | monomer | 1×MG; 1×GDP; | ||||
Assess | ||||||
Structure of the phosphomimetic mutant of EF-Tu T383E | monomer | 2×MG; 1×GDP; 3×ACT; 1×EPE; 2×BME; | ||||
Assess | ||||||
Structure of phosphorylated translation elongation factor EF-Tu from E. coli | monomer | 1×MG; 1×GDP; | ||||
Assess | ||||||
INTACT ELONGATION FACTOR FROM E.COLI | monomer | 1×MG; 1×GDP; | ||||
Assess | ||||||
E. coli EF-Tu in complex with KKL-55 | monomer | 1×MG; 1×GDP; 1×Y7C; | ||||
Assess | ||||||
Structure of the phosphomimetic mutant of the elongation factor EF-Tu T62E | monomer | 1×MG; 1×GDP; | ||||
Assess | ||||||
Structure of phosphorylated EF-Tu in complex with GTP | monomer | 14×IOD; 1×MG; 1×GTP; 2×NA; 1×GOL; | ||||
Assess | ||||||
STRUCTURAL DETAILS OF THE BINDING OF GUANOSINE DIPHOSPHATE TO ELONGATION FACTOR TU FROM E. COLI AS … | monomer | 1×MG; 1×GDP; | ||||
Assess |
2 SWISS-MODEL models
Template | Oligo-state | QMEANDisCo | Range | Ligands | Trg-Tpl Seq id (%) | |
---|---|---|---|---|---|---|
5jbq.1.A | monomer | 0.85 | 1×GDP; 1×MG; | 100.00 | ||
Assess | ||||||
1eft.1.A | monomer | 0.81 | 72.96 | |||
Assess |