P00924 (ENO1_YEAST) Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast)
Enolase 1 UniProtKBInterProSTRINGInteractive Modelling
437 aa; Sequence (Fasta) ;
4 identical sequences: Saccharomyces cerevisiae: N1P439, A0A8H8UKY7, B3LHY6; Saccharomyces boulardii: U5TVK5
It is possible new templates exist for this target since these models were created.
Available Structures
21 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Ligands | ||
|---|---|---|---|---|---|---|
| Crystal Structure Analysis of Enolase Mg Subunit Complex at pH 8.0 | homo-2-mer | 4×MG; 2×PEP; 1×2PG; 1×CL; 2×K; | ||||
| Assess | ||||||
| Engineering the enolase active site pocket: Crystal structure of the S39N Q167K D321R mutant of yea… | homo-2-mer | 2×MG; 2×PEP; | ||||
| Assess | ||||||
| Engineering the enolase active site pocket: Crystal structure of the S39A D321A mutant of yeast eno… | homo-2-mer | 3×MG; 2×2PG; | ||||
| Assess | ||||||
| YEAST ENOLASE COMPLEXED WITH AN EQUILIBRIUM MIXTURE OF 2'-PHOSPHOGLYCEATE AND PHOSPHOENOLPYRUVATE | homo-2-mer | 4×MG; 2×PEP; 2×2PG; | ||||
| Assess | ||||||
| Engineering the enolase active site pocket: Crystal structure of the S39N D321A mutant of yeast eno… | homo-2-mer | 2×MG; 2×2PG; | ||||
| Assess | ||||||
| REVERSE PROTONATION IS THE KEY TO GENERAL ACID-BASE CATALYSIS IN ENOLASE | homo-2-mer | 4×MG; 2×2PG; | ||||
| Assess | ||||||
| Engineering the enolase active site pocket: Crystal structure of the S39N D321R mutant of yeast eno… | homo-2-mer | 5×MG; 2×PEP; | ||||
| Assess | ||||||
| Engineering the enolase active site pocket: Crystal structure of the D321A mutant of yeast enolase 1 | homo-2-mer | 10×MG; 2×2PG; | ||||
| Assess | ||||||
| Crystal Structure Analysis of Enolase Mg Subunit Complex at pH 8.0 | homo-2-mer | 4×MG; 2×PEP; 2×2PG; 1×CL; 1×K; | ||||
| Assess | ||||||
| OCTAHEDRAL COORDINATION AT THE HIGH AFFINITY METAL SITE IN ENOLASE; CRYSTALLOGRAPHIC ANALYSIS OF TH… | homo-2-mer | 2×CL; 2×MG; | ||||
| Assess | ||||||
| CRYSTAL STRUCTURE OF HOLOENZYME REFINED AT 1.9 ANGSTROMS RESOLUTION: TRIGONAL-BIPYRAMIDAL GEOMETRY … | homo-2-mer | 2×ZN; 2×SO4; | ||||
| Assess | ||||||
| REVERSE PROTONATION IS THE KEY TO GENERAL ACID-BASE CATALYSIS IN ENOLASE | homo-2-mer | 4×MG; 2×PEP; | ||||
| Assess | ||||||
| ASYMMETRIC YEAST ENOLASE DIMER COMPLEXED WITH RESOLVED 2'-PHOSPHOGLYCERATE AND PHOSPHOENOLPYRUVATE | homo-2-mer | 2×MG; 1×LI; 1×2PG; 1×PEP; | ||||
| Assess | ||||||
| CHELATION OF SER 39 TO MG2+ LATCHES A GATE AT THE ACTIVE SITE OF ENOLASE: STRUCTURE OF THE BIS(MG2+… | homo-2-mer | 4×MG; 2×PAH; | ||||
| Assess | ||||||
| Mg-phosphonoacetohydroxamate complex of S39A yeast enolase 1 | homo-2-mer | 4×MG; 2×PAH; | ||||
| Assess | ||||||
| INHIBITION OF ENOLASE: THE CRYSTAL STRUCTURES OF ENOLASE-CA2+-PHOSPHOGLYCERATE AND ENOLASE-ZN2+-PHO… | homo-2-mer | 2×CA; 2×2PG; | ||||
| Assess | ||||||
| MECHANISM OF ENOLASE: THE CRYSTAL STRUCTURE OF ENOLASE-MG2+-PHOSPHOGLYCERATE(SLASH) PHOSPHOENOLPYRU… | homo-2-mer | 2×MG; 2×2PG; | ||||
| Assess | ||||||
| INHIBITION OF ENOLASE: THE CRYSTAL STRUCTURES OF ENOLASE-CA2+-PHOSPHOGLYCERATE AND ENOLASE-ZN2+-PHO… | homo-2-mer | 2×PGA; 2×ZN; | ||||
| Assess | ||||||
| REFINED STRUCTURE OF YEAST APO-ENOLASE AT 2.25 ANGSTROMS RESOLUTION | homo-2-mer | 2×SO4; | ||||
| Assess | ||||||
| CATALYTIC METAL ION BINDING IN ENOLASE: THE CRYSTAL STRUCTURE OF ENOLASE-MN2+-PHOSPHONOACETOHYDROXA… | homo-2-mer | 4×MN; 2×PAH; | ||||
| Assess | ||||||
| FLUORIDE INHIBITION OF YEAST ENOLASE: CRYSTAL STRUCTURE OF THE ENOLASE-MG2+-F--PI COMPLEX AT 2.6-AN… | homo-2-mer | 2×MG; 2×PO4; 2×F; | ||||
| Assess | ||||||
1 SWISS-MODEL model
| Template | Oligo-state | QMEANDisCo | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 1ebg.1.A | homo-2-mer | 0.92 | 2×MG; 2×PAH; | 99.77 | ||
| Assess | ||||||