A0A7U8YMI2 (A0A7U8YMI2_STRLI) Streptomyces lividans TK24
Voltage-gated potassium channel UniProtKBInterProInteractive Modelling
160 aa; Sequence (Fasta) ;
3 identical sequences: Streptomyces sp. RK76: A0AA41ARS5; Streptomyces lividans: P0A334; Streptomyces coelicolor: P0A333
Available Structures
94 Experimental Structures
| Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
|---|---|---|---|---|---|---|
| The Crystal Structure of Full-Length KcsA in its Closed Conformation |
Heteromer P0A334; | 100 | ||||
| Mechanism of Activation Gating in the Full-Length KcsA K+ Channel |
Heteromer P0A334; | 94.96 | ||||
| potassium channel KcsA-Fab complex in high concentration of Tl+ |
Heteromer P01837; P01868; P0A334; | 99.03 | 4×F09; 20×TL; 4×DGA; | |||
| crystal structure of the KcsA-Fab-TBA complex in high K+ |
Heteromer P0A334; | 99.03 | 4×F09; 24×K; 4×L2C; 4×TBA; | |||
| Potassium Channel KcsA-Fab complex in high concentration of K+ |
Heteromer P0A334; | 99.03 | 4×F09; 28×K; 4×DGA; | |||
| Structure of the G77A mutant in Sodium Chloride |
Heteromer P0A334; | 98.06 | 4×F09; 4×DGA; 4×NA; | |||
| Y78 ester mutant of KcsA in high K+ |
Heteromer A0A0M4KEQ7; P0A334; | 100 | 1×DGA; 6×K; | |||
| Structure of the KcsA-G77A mutant or the 2,4-ion bound configuration of a K+ channel selectivity fi… |
Heteromer P0A334; | 98.06 | 4×F09; 4×1EM; 16×K; | |||
| Structure of the KcsA-G77C mutant or the 2,4-ion bound configuration of a K+ channel selectivity fi… |
Heteromer P0A334; | 98.06 | 4×F09; 4×1EM; 16×K; | |||
| Potassium Channel Kcsa-Fab Complex T75C mutant in K+ |
Heteromer P0A333; | 99.03 | 4×F09; 28×K; 4×DGA; | |||
| Closed conformation of KcsA Y82A-F103A mutant |
Heteromer P0A334; | 97.09 | 4×F09; 4×1EM; 24×K; | |||
| Potassium Channel KcsA-Fab complex in low concentration of K+ |
Heteromer P01837; P01868; P0A334; | 99.03 | 8×K; 4×NA; 4×DGA; 4×F09; | |||
| KcsA T75G in the Conductive State |
Heteromer P0A334; | 99.03 | 4×F09; 4×DGA; 24×K; | |||
| On the structural basis of modal gating behavior in K+channels - E71I |
Heteromer P0A334; | 98.06 | 20×K; | |||
| Closed-gate KcsA soaked in 10mM KCl/5mM BaCl2 |
Heteromer P0A334; | 99.03 | 24×K; | |||
| Closed-gate KcsA soaked in 0mM KCl/5mM BaCl2 |
Heteromer P0A334; | 99.03 | 4×K; | |||
| potassium channel KcsA-Fab complex in Rb+ |
Heteromer P01837; P01868; P0A334; | 99.03 | 4×F09; 16×RB; 4×DGA; | |||
| POTASSIUM CHANNEL KCSA-FAB WITH TETRAHEXYLAMMONIUM |
Heteromer P0A334; | 99.03 | 16×F09; 4×IND; 16×K; 4×DGA; 4×CO; 8×XA7; 4×PO4; | |||
| KcsA potassium channel mutant Y82C with Cadmium bound |
Heteromer P0A334; | 99.03 | 24×K; 4×CD; | |||
| Potassium Channel KcsA in complex with Tetrabutylammonium in high K |
Heteromer P0A334; | 99.03 | 4×CO; 24×K; 4×F09; 4×L2C; 4×TBA; 4×HP6; | |||
| potassium channel KcsA-Fab complex in Cs+ |
Heteromer P01837; P01868; P0A334; | 99.03 | 4×F09; 20×CS; 4×DGA; | |||
| Structural Snapshots of Intermediates in the Gating of a K+ Channel |
Heteromer P0A334; | 99.03 | 4×F09; 16×K; 4×TBA; 4×DGA; | |||
| Crystal structure of KcsA-FAB-TBA complex in Rb+ |
Heteromer P0A334; | 99.03 | 12×RB; 4×L2C; 4×F09; 4×TBA; | |||
| Closed-gate KcsA incubated in BaCl2/NaCl |
Heteromer P0A334; | 99.03 | 4×BA; | |||
| Structure of a mutant KcsA K+ channel |
Heteromer P0A334; | 98.06 | 7×K; 1×F09; | |||
| Potassium Channel KcsA(M96V)-Fab complex in KCl |
Heteromer P0A334; | 98.06 | 4×DGA; 12×K; | |||
| crystal structure of KcsA-FAB-TBA complex in Tl+ |
Heteromer P0A334; | 99.03 | 4×F09; 16×TL; 4×L2C; 4×TBA; | |||
| Closed-gate KcsA soaked in 1mM KCl/5mM BaCl2 |
Heteromer P0A334; | 99.03 | 4×K; | |||
| Closed-gate KcsA soaked in 5mM KCl/5mM BaCl2 |
Heteromer P0A334; | 99.03 | 12×K; | |||
| Structural Snapshots of Intermediates in the Gating of a K+ Channel |
Heteromer P0A334; | 99.03 | 4×F09; 24×K; 4×DGA; 4×TBA; | |||
| On the structural basis of modal gating behavior in K+channels - E71Q |
Heteromer P0A334; | 98.06 | 28×K; | |||
| Potassium Channel KcsA-Fab complex in Barium Chloride |
Heteromer P0A334; | 99.03 | 8×BA; | |||
| Crystal structure of KcsA-Fab-TBA complex in low K+ |
Heteromer P0A334; | 99.03 | 4×F09; 8×K; 4×L2C; 4×TBA; | |||
| KcsA with V76ester mutation |
Heteromer P0A334; | 96.12 | 4×F09; 4×DGA; 24×K; | |||
| Potassium Channel KcsA-Fab complex in Li+ and K+ |
Heteromer P0A334; | 99.03 | 4×NI; 4×DGA; | |||
| Structure of KcsA with R122A mutation |
Heteromer P0A334; | 99.03 | 4×F09; 4×DGA; 12×K; | |||
| Potassium channel KcsA-Fab complex in thallium with tetrabutylammonium (TBA) |
Heteromer P0A334; | 99.03 | 4×TL; 4×CO; 4×TBA; | |||
| KcsA E71V closed gate with K+ |
Heteromer P0A334; | 98.06 | 12×K; | |||
| potassium channel KcsA-Fab complex in low concentration of Tl+ |
Heteromer P01837; P01868; P0A334; | 99.03 | 4×DGA; 12×TL; | |||
| KcsA E71V closed gate with Ba2+ |
Heteromer P0A334; | 98.06 | 4×BA; 4×DGA; | |||
| Potassium Channel KcsA-Fab complex in Li+ |
Heteromer P0A334; | 99.03 | 4×NI; 4×DGA; | |||
| Potassium channel kcsa-fab complex with tetrabutylammonium (TBA) |
Heteromer P0A334; | 99.03 | 16×K; 4×TBA; | |||
| KcsA M96V mutant with Y78ester in High K+ |
Heteromer P0A334; | 98.06 | 4×K; 1×TBA; | |||
| Potassium channel KcsA-Fab complex in thallium with tetraethylarsonium (TEAs) |
Heteromer P0A334; | 99.03 | 16×TL; 4×CO; 4×T1A; | |||
| Potassium Channel KcsA-Fab complex in Sodium Chloride |
Heteromer P0A334; | 99.03 | 8×NA; | |||
| Structure of the KcsA-W67F mutant with the activation gate in the closed conformation |
Heteromer P0A333; | 98.06 | 1×F09; 1×1EM; 5×K; | |||
| KcsA E71A variant in presence of Na+ |
Heteromer P0A334; | 99.03 | 8×NA; | |||
| KcsA with G77ester mutation |
Heteromer P0A334; | 97.06 | 4×F09; 4×DGA; 24×K; | |||
| KcsA with V76ester+G77dA mutations |
Heteromer P0A334; | 95.1 | 4×F09; 4×DGA; 24×K; | |||
| Potassium Channel KcsA-Fab Complex with Tetraoctylammonium |
Heteromer P0A334; | 99.02 | 4×CO; 4×F09; 4×DGA; 4×HX0; 28×K; | |||
| Structure of mutant KcsA potassium channel |
Heteromer P0A334; | 98.04 | 1×F09; 7×K; 1×DGA; | |||
| KcsA potassium channel mutant Y82C with nitroxide spin label |
Heteromer P0A334; | 99.02 | 4×MTN; 20×K; | |||
| The structure of KcsA in complex with a synthetic Fab |
Heteromer P0A334; | 99.02 | 16×K; | |||
| Structure of KcsA with E118A mutation |
Heteromer P0A334; | 99.02 | 24×K; 4×DGA; | |||
| Rb+ complex of a K channel with an amide to ester substitution in the selectivity filter |
Heteromer P0A333; | 97.03 | 20×RB; 4×B3H; | |||
| Structure of a K channel with an amide to ester substitution in the selectivity filter |
Heteromer P01837; P0A334; Q569B4; | 97.03 | 24×K; 4×B3H; | |||
| Ion selectivity in a semi-synthetic K+ channel locked in the conductive conformation |
Heteromer P0A334; | 97.03 | 20×K; 4×1EM; | |||
| KcsA T75G mutant in the nonconductive state |
Heteromer P0A334; | 99.01 | 4×DGA; 4×F09; 12×K; | |||
| Cs+ complex of a K channel with an amide to ester substitution in the selectivity filter |
Heteromer P01837; P0A334; Q569B4; | 97.03 | 16×CS; 4×B3H; | |||
| Ion selectivity in a semi-synthetic K+ channel locked in the conductive conformation |
Heteromer P0A334; | 96.94 | 28×K; 4×1EM; | |||
| NMR structural studies of a potassium channel / charybdotoxin complex |
Heteromer P0A334; P13487; | 92.78 | ||||
| Open conformation of KcsA non-inactivating E71A mutant |
Heteromer P0A334; | 92.71 | 4×F09; 4×1EM; 28×K; | |||
| Open conformation of KcsA deep-inactivated |
Heteromer P0A334; | 92.71 | 4×F09; 4×1EM; 12×K; | |||
| KcsA in vitro |
Heteromer P0A334; | 100 | 24×K; | |||
| Closed and deep-inactivated conformation of KcsA-T75A mutant |
Heteromer P0A333; | 97.89 | 1×F09; 1×DGA; 3×K; | |||
| KcsA E71H-F103A mutant in the closed state |
Heteromer P0A334; | 96.81 | 6×K; | |||
| Open-gate KcsA soaked in 1 mM BaCl2 |
Heteromer P0A334; | 100 | 4×BA; 4×K; | |||
| Open-gate KcsA soaked in 10 mM BaCl2 |
Heteromer P0A334; | 100 | 4×BA; 4×K; | |||
| Open-gate KcsA soaked in 4 mM BaCl2 |
Heteromer P0A334; | 100 | 4×BA; 4×K; | |||
| Open-gate KcsA soaked in 2 mM BaCl2 |
Heteromer P0A334; | 100 | 4×BA; 4×K; | |||
| Open-gate KcsA soaked in 5 mM BaCl2 |
Heteromer P0A334; | 100 | 4×BA; 4×K; | |||
| Open and conductive conformation of KcsA-T75A mutant |
Heteromer P0A333; | 96.7 | 1×F09; 1×DGA; 6×K; | |||
| Structural Snapshots of Intermediates in the Gating of a K+ Channel |
Heteromer P0A334; | 97.8 | 4×F09; 4×1EM; 24×K; | |||
| KcsA Open gate E71V mutant in Potassium |
Heteromer P0A334; | 94.5 | 8×K; | |||
| KcsA open gate E71V mutant with sodium |
Heteromer P0A334; | 94.5 | ||||
| Structural Snapshots of Intermediates in the Gating of a K+ Channel |
Heteromer P0A334; | 98.9 | 12×K; | |||
| KcsA open gate E71V mutant with Barium |
Heteromer P0A334; | 94.5 | 4×BA; | |||
| KcsA potassium channel in the partially open state with 14.5 A opening at T112 |
Heteromer P0A334; | 97.78 | 24×K; | |||
| KcsA Potassium channel in the partially open state with 16 A opening at T112 |
Heteromer P01837; P0A334; | 97.78 | 5×K; | |||
| KcsA Potassium channel in the open-inactivated state with 23 A opening at T112 |
Heteromer P01837; P0A334; | 97.78 | 2×K; | |||
| Open KcsA potassium channel in the presence of Rb+ ion |
Heteromer P0A334; | 98.88 | 4×RB; | |||
| KcsA Potassium channel in the open-inactivated state with 32 A opening at T112 |
Heteromer P0A334; | 97.73 | 8×K; | |||
| KcsA Potassium channel in the partially open state with 17 A opening at T112 |
Heteromer P01837; P0A334; | 98.86 | 4×K; | |||
| KcsA Potassium channel in the open-conductive state with 20 A opening at T112 in the presence of Rb… |
Heteromer P0A334; | 98.85 | 16×RB; | |||
| POTASSIUM CHANNEL (KCSA) FULL-LENGTH FOLD | homo-4-mer | 98.12 | ||||
| Crystal Structure of KcsA mutant | homo-4-mer | 98.06 | 24×K; 4×1EM; | |||
| Structure of KcsA with L24C/R117C mutations | homo-4-mer | 98.04 | 16×K; | |||
| KCSA POTASSIUM CHANNEL WITH TBA (TETRABUTYLAMMONIUM) AND RUBIDIUM | homo-4-mer | 98.97 | 3×RB; 1×TBA; | |||
| KCSA potassium channel with TBA (tetrabutylammonium) and potassium | homo-4-mer | 98.98 | 4×K; 1×TBA; | |||
| POTASSIUM CHANNEL (KCSA) FROM STREPTOMYCES LIVIDANS | homo-4-mer | 98.97 | 3×K; | |||
| An anisotropic model for potassium channel KcsA | homo-4-mer | 98.97 | 3×K; | |||
| Crystal structure of the Spin-labeled KcsA mutant V48R1 | homo-4-mer | 98.97 | 2×K; 4×MTN; 1×TBA; | |||
| POTASSIUM CHANNEL (KCSA) OPEN GATE MODEL | homo-4-mer | 97.06 | ||||
| POTASSIUM CHANNEL (KCSA) OPEN GATE MODEL | homo-4-mer | 97.06 | ||||
1 SWISS-MODEL model
| Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 3eff.1.F | monomer | 0.66 | 100.00 | |||