C4IX13 (C4IX13_SQUAC) Squalus acanthias (Spiny dogfish)
Sodium/potassium-transporting ATPase subunit beta UniProtKBInterProInteractive Modelling
305 aa; Sequence (Fasta)
It is possible new templates exist for this target since these models were created.
Available Structures
32 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Ligands | ||
|---|---|---|---|---|---|---|
| Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 1×MG; 2×NA; 1×ATP; 4×CLR; 12×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP with istaroxime |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 1×MG; 1×NA; 1×ATP; 1×7Q2; 4×CLR; 12×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP in the presence of 40 mM Mg2+ |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 2×MG; 1×NA; 1×ATP; 4×CLR; 12×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by ATP with ouabain |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 1×MG; 2×NA; 1×OBN; 4×CLR; 12×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by inorganic phosphate with istaroxime |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 3×MG; 1×7Q2; 4×CLR; 12×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by inorganic phosphate |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 3×MG; 4×CLR; 12×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of Na+,K+-ATPase in the E1.Mg2+ state. |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 3×CLR; 10×PCW; 2×MG; | ||||
| Assess | ||||||
| Cryo-EM structure of the Na+,K+-ATPase in the E2.2K+ state |
Heteromer Q4H132; Q70Q12; | 2×NAG; 2×NAG; 2×NAG; 2×NAG; 6×K; 8×CLR; 26×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of the Na+,K+-ATPase in the E2.2K+ state after addition of ATP |
Heteromer Q4H132; Q70Q12; | 2×NAG; 2×NAG; 2×NAG; 2×NAG; 2×ATP; 6×K; 8×CLR; 2×PCW; | ||||
| Assess | ||||||
| Cryo-EM structure of Na+,K+-ATPase in the E2P state formed by inorganic phosphate with ouabain |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×NAG; 1×NAG; 1×NAG; 3×MG; 1×OBN; 4×CLR; 12×PCW; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 2×K; 3×TL; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×K; 3×TL; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×K; 3×TL; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×K; 3×RB; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×K; 3×RB; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: E2.MgF42-.2RB+ crystal |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×RB; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: native E2.MgF42-.2K+ crystal for Rb+ bound crystals |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 2×K; 3×TL; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 2×K; 3×TL; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×K; 3×RB; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Rb+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 2×K; 3×RB; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 2×K; 3×TL; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Kinetics by X-ray crystallography: Tl+-substitution of bound K+ in the E2.MgF42-.2K+ crystal after … |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×TL; 1×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Crystal structure of the sodium - potassium pump in the E2.2K+.Pi state |
Heteromer Q4H132; Q70Q12; | 1×NAG; 1×MF4; 1×MG; 3×K; 1×CLR; 1×NAG; | ||||
| Assess | ||||||
| Crystal structure of the sodium-potassium pump with bound potassium and ouabain |
Heteromer Q4H132; Q70Q12; | 1×MF4; 1×MG; 3×K; 1×OBN; 1×CLR; 3×NAG; | ||||
| Assess | ||||||
1 SWISS-MODEL model
| Template | Oligo-state | QMEANDisCo | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 7wyy.1.B | monomer | 0.76 | 1×NAG; 1×CLR; | 100.00 | ||
| Assess | ||||||