A0A1X3JLF4 (A0A1X3JLF4_ECOLX) Escherichia coli H386
Alkaline phosphatase (APase) UniProtKBInterProInteractive Modelling
471 aa; Sequence (Fasta) ;
5 identical sequences: Escherichia coli O145:NM: A0A4P8C8B4; Escherichia coli: P00634, A0A086VD57; Escherichia coli O145:H28: A0A7U9QAQ8; Escherichia coli O145: A0A9Q6Y1W5
Available Structures
72 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
|---|---|---|---|---|---|---|
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones |
Heteromer P00634; Q56237; | 100 | ||||
| The structure of chaperone SecB in complex with unstructured proPhoA |
Heteromer P00634; P0AG86; | 100 | ||||
| NMR structure of E. coli Trigger Factor in complex with unfolded PhoA365-471 |
Heteromer P00634; | 100 | ||||
| The structure of chaperone SecB in complex with unstructured proPhoA binding site c |
Heteromer P00634; P0AG86; | 100 | ||||
| The structure of chaperone SecB in complex with unstructured proPhoA binding site d |
Heteromer P00634; P0AG86; | 100 | ||||
| The structure of chaperone SecB in complex with unstructured PhoA binding site a |
Heteromer P00634; P0AG86; | 100 | ||||
| The structure of chaperone SecB in complex with unstructured proPhoA binding site e |
Heteromer P00634; P0AG86; | 100 | ||||
| RNC-SRP-SR complex early state |
Heteromer P00634; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0AG44; P0AG48; P0AG51; P0AG55; P0AGD7; P0C018; P10121; P60422; P60438; P60624; P60723; P61175; P62399; P68919; | 77.78 | 433×MG; 1×ZN; 2×GNP; | |||
| RNC in complex with SRP |
Heteromer P00634; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0AG44; P0AG48; P0AG51; P0AG55; P0AGD7; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68919; | 77.78 | 431×MG; 1×ZN; 1×GNP; | |||
| RNC in complex with SRP-SR in the closed state |
Heteromer P00634; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0AG44; P0AG48; P0AG51; P0AG55; P0AGD7; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68919; | 77.78 | 431×MG; 1×ZN; | |||
| RNC in complex with SRP with detached NG domain |
Heteromer P00634; P02413; P0A7J3; P0A7J7; P0A7K6; P0A7L3; P0A7L8; P0A7M2; P0A7M6; P0A7N4; P0A7N9; P0A7P5; P0A7Q1; P0A7Q6; P0A7R1; P0AA10; P0ADY3; P0ADY7; P0ADZ0; P0AG44; P0AG48; P0AG51; P0AG55; P0AGD7; P0C018; P60422; P60438; P60624; P60723; P61175; P62399; P68919; | 77.78 | 431×MG; 1×ZN; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide RKQST… |
Heteromer P00634; P0A6Y8; | 100 | 4×SO4; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide RALAL… |
Heteromer P00634; P0A6Y8; | 100 | 2×SO4; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide QEHTG… |
Heteromer P00634; P0A6Y8; | 100 | 2×SO4; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide RAKNI… |
Heteromer P00634; P0A6Y8; | 100 | 1×SO4; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide RQKPL… |
Heteromer P00634; P0A6Y8; | 100 | 1×SO4; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide EANQQ… |
Heteromer P00634; P0A6Y8; | 100 | 2×GOL; 2×SO4; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide RGSQL… |
Heteromer P00634; P0A6Y8; | 100 | 1×SO4; | |||
| Crystal structure of the substrate-binding domain of E. coli DnaK in complex with the peptide RGNTL… |
Heteromer P00634; P0A6Y8; | 100 | 2×SO4; | |||
| Crystal structure of metal-free E. coli alkaline phosphatase (T155V) | homo-2-mer | 99.77 | 4×SO4; | |||
| Structure of E. coli Alkaline Phosphatase in presence of cobalt at 1.60 A resolution | homo-2-mer | 100 | 6×CO; 2×PO4; 2×SO4; | |||
| STRUCTURE OF E. COLI ALKALINE PHOSPHATASE INHIBITED BY THE INORGANIC PHOSPHATE AT 1.75A RESOLUTION | homo-2-mer | 100 | 6×ZN; 2×MG; 2×PO4; 2×SO4; | |||
| STRUCTURE OF E. COLI ALKALINE PHOSPHATASE WITHOUT THE INORGANIC PHOSPHATE AT 1.75A RESOLUTION | homo-2-mer | 100 | 4×ZN; 2×MG; 2×SO4; | |||
| Structure of D153H/K328W E. coli alkaline phosphatase in presence of cobalt at 1.77 A resolution | homo-2-mer | 99.56 | 6×CO; 2×PO4; 2×SO4; | |||
| Crystal structure of zinc-deficient wild-type E. coli alkaline phosphatase | homo-2-mer | 100 | 2×MG; | |||
| ALKALINE PHOSPHATASE COMPLEXED WITH VANADATE | homo-2-mer | 100 | 4×ZN; 2×SO4; 2×MG; | |||
| REACTION MECHANISM OF ALKALINE PHOSPHATASE BASED ON CRYSTAL STRUCTURES. TWO METAL ION CATALYSIS | homo-2-mer | 98.89 | 4×ZN; 2×MG; 2×PO4; | |||
| Structure of S102T E. coli alkaline phosphatase in presence of phosphate at 2.00 A resolution | homo-2-mer | 99.78 | 4×ZN; 2×MG; 2×PO4; 2×SO4; | |||
| ALKALINE PHOSPHATASE (E.C. 3.1.3.1) COMPLEX WITH MERCAPTOMETHYL PHOSPHONATE | homo-2-mer | 100 | 6×ZN; 2×SO4; 2×MG; 2×MMQ; | |||
| Structure of S102T E. coli Alkaline Phosphatase-phosphate intermediate at 2.20A resolution | homo-2-mer | 99.78 | 4×ZN; 2×MG; 2×SO4; | |||
| ALKALINE PHOSPHATASE (E.C. 3.1.3.1) COMPLEX WITH PHOSPHONOACETIC ACID | homo-2-mer | 100 | 6×ZN; 2×PO4; 2×SO4; 2×MG; 2×PAE; | |||
| ALKALINE PHOSPHATASE MUTANT H331Q | homo-2-mer | 99.78 | 4×ZN; 2×MG; 2×SO4; | |||
| THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAK… | homo-2-mer | 99.56 | 4×ZN; 2×MG; | |||
| THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAK… | homo-2-mer | 99.54 | ||||
| THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAK… | homo-2-mer | 99.56 | 4×ZN; 2×MG; 2×SO4; | |||
| THREE-DIMENSIONAL STRUCTURE OF THE D153G MUTANT OF E. COLI ALKALINE PHOSPHATASE: A MUTANT WITH WEAK… | homo-2-mer | 99.55 | 4×ZN; 2×MG; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (S102A) | homo-2-mer | 99.78 | 4×ZN; 2×MG; 2×PO4; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (S102C) | homo-2-mer | 99.78 | 4×ZN; 2×MG; 2×PO4; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (S102G) | homo-2-mer | 99.78 | 4×ZN; 2×MG; 2×PO4; | |||
| Crystal structure of wild-type/T155V mixed dimer of E. coli alkaline phosphatase | homo-2-mer | 99.77 | 4×SO4; | |||
| Structure of E.coli Alkaline Phosphatase Mutant in Complex with a Phosphorylated Peptide | homo-2-mer | 99.78 | 1×PO4; 1×TRS; | |||
| ALKALINE PHOSPHATASE (D51ZN) | homo-2-mer | 99.78 | 4×ZN; 4×PO4; | |||
| ALKALINE PHOSPHATASE (N51MG) | homo-2-mer | 99.78 | 2×ZN; 2×MG; 4×PO4; | |||
| ALKALINE PHOSPHATASE MUTANT (H412N) | homo-2-mer | 99.78 | 4×ZN; 2×MG; 2×PO4; | |||
| ALKALINE PHOSPHATASE (H412Q) | homo-2-mer | 99.78 | 6×ZN; | |||
| ALKALINE PHOSPHATASE (K328H) | homo-2-mer | 99.78 | 6×ZN; 4×PO4; | |||
| Structure of E322Y Alkaline Phosphatase in Complex with Inorganic Phosphate | homo-2-mer | 99.78 | 6×ZN; 2×PO4; | |||
| ALKALINE PHOSPHATASE (D153H) | homo-2-mer | 99.78 | 6×ZN; 3×PO4; | |||
| KINETICS AND CRYSTAL STRUCTURE OF A MUTANT E. COLI ALKALINE PHOSPHATASE (ASP-369-->ASN): A MECHANIS… | homo-2-mer | 99.55 | 2×ZN; 2×PO4; 2×SO4; | |||
| ALKALINE PHOSPHATASE (D153H, K328H) | homo-2-mer | 99.55 | 6×ZN; 5×PO4; | |||
| ALKALINE PHOSPHATASE MUTANT (H412N) | homo-2-mer | 99.78 | 2×ZN; 2×MG; 2×PO4; | |||
| E. coli alkaline phosphatase mutant R166S in complex with phosphate | homo-2-mer | 99.78 | 4×ZN; 2×PO4; 2×MG; | |||
| E. coli alkaline phosphatase mutant S102G/R166S in complex with inorganic phosphate | homo-2-mer | 99.55 | 2×PO4; 6×ZN; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D330N) MIMIC OF THE TRANSITION STATES WITH ALUMINIUM FLUORIDE | homo-2-mer | 98.65 | 4×ZN; 2×MG; 2×AF3; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) MIMIC OF THE TRANSITION STATES WITH ALUMINIUM FLUO… | homo-2-mer | 98.42 | 4×ZN; 2×AF3; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D153GD330N) | homo-2-mer | 98.2 | 4×ZN; 2×MG; 2×SO4; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D330N) IN COMPLEX WITH PHOSPHATE | homo-2-mer | 98.65 | 4×ZN; 2×MG; 2×PO4; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) | homo-2-mer | 98.42 | 4×ZN; 2×MG; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) COMPLEX WITH PHOSPHATE | homo-2-mer | 98.42 | 4×ZN; 2×PO4; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D153GD330N) COMPLEX WITH PHOSPHATE | homo-2-mer | 98.65 | 4×ZN; 1×MG; 2×PO4; | |||
| E. COLI ALKALINE PHOSPHATASE MUTANT (D153HD330N) ZINC FORM | homo-2-mer | 98.42 | 6×ZN; | |||
| E. coli alkaline phosphatase D101A, D153A, R166S, E322A, K328A mutant | homo-2-mer | 98.87 | 7×ZN; 2×PO4; | |||
| E. Coli Alkaline Phosphatase in complex with tungstate | homo-2-mer | 100 | 6×ZN; 2×WO4; | |||
| Crystal Structure of E. Coli Alkaline Phosphatase D101A/D153A in complex with inorganic phosphate | homo-2-mer | 99.55 | 4×ZN; 2×PO4; 4×GOL; | |||
| E. coli alkaline phosphatase with bound inorganic phosphate | homo-2-mer | 100 | 4×ZN; 2×MG; 2×PO4; | |||
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones | monomer | 100 | ||||
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones | monomer | 100 | ||||
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones | monomer | 100 | ||||
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones | monomer | 100 | ||||
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones | monomer | 90.91 | ||||
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones | monomer | 90.91 | ||||
| Structural Basis for Client Recognition and Activity of Hsp40 Chaperones | monomer | 100 | ||||
1 SWISS-MODEL model
| Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 1b8j.1.A | homo-2-mer | 0.91 | 4×ZN; 2×MG; | 100.00 | ||