O60313 (OPA1_HUMAN) Homo sapiens (Human)
Dynamin-like GTPase OPA1, mitochondrial UniProtKBInterProSTRINGInteractive Modelling
It is possible new templates exist for this target since these models were created.
Available Structures
9 Experimental Structures
Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
---|---|---|---|---|---|---|
CryoEM structure of human S-OPA1 assembled on lipid membrane in membrane-distal state | homo-34-mer | 100 | 91×CDL; | |||
CryoEM structure of human S-OPA1 assembled on lipid membrane in membrane-adjacent state | homo-34-mer | 100 | ||||
CryoEM of the soluble OPA1 interfaces with GDP-AlFx bound from the helical assembly on a lipid memb… | homo-18-mer | 100 | 18×GDP; 18×ALF; 18×MG; 18×K; | |||
CryoEM of the soluble OPA1 interfaces from the apo helical assembly on a lipid membrane | homo-18-mer | 100 | ||||
CryoEM of the soluble OPA1 tetramer from the apo helical assembly on a lipid membrane | homo-4-mer | 100 | ||||
CryoEM of the soluble OPA1 tetramer from the GDP-AlFx bound helical assembly on a lipid membrane | homo-4-mer | 100 | 4×GDP; 4×ALF; 4×MG; 4×K; | |||
CryoEM of the soluble OPA1 dimer from the apo helical assembly on a lipid membrane | homo-2-mer | 100 | ||||
CryoEM of the soluble OPA1 dimer from the GDP-AlFx bound helical assembly on a lipid membrane | homo-2-mer | 100 | 2×GDP; 2×ALF; 2×MG; 2×K; | |||
Structural insights into G domain dimerization and pathogenic mutations of OPA1 | homo-2-mer | 100 | 2×GDP; 2×MG; 2×BEF; 2×K; | |||
5 SWISS-MODEL models
Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
---|---|---|---|---|---|---|
8ct1.1.A | homo-34-mer | 0.76 | 100.00 | |||
8eff.1.A | homo-4-mer | 0.76 | 4×GDP; 4×ALF; 2×MG; 2×K; | 100.00 | ||
8t0k.1.A | monomer | 0.59 | 26.92 | |||
6ql4.2.A | monomer | 0.53 | 22.03 | |||
6rzt.1.A | homo-12-mer | 0.52 | 22.06 | |||
22 SWISS-MODEL models built on isoform sequence
Isoform | Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
---|---|---|---|---|---|---|---|
Isoform 2 | 8ct1.1.A | homo-34-mer | 0.76 | 100.00 | |||
Isoform 2 | 8eff.1.A | homo-4-mer | 0.72 | 4×GDP; 4×ALF; 2×MG; 2×K; | 100.00 | ||
Isoform 2 | 8sxz.1.A | monomer | 0.59 | 27.01 | |||
Isoform 2 | 6ql4.1.A | monomer | 0.54 | 22.17 | |||
Isoform 2 | 6rzt.1.A | homo-12-mer | 0.53 | 22.37 | |||
Isoform 9 | 8ct1.1.A | homo-34-mer | 0.77 | 94.99 | |||
Isoform 9 | 8eff.1.A | homo-4-mer | 0.72 | 4×GDP; 4×ALF; 2×MG; 2×K; | 100.00 | ||
Isoform 9 | 8t0k.1.A | monomer | 0.59 | 26.84 | |||
Isoform 9 | 6rzt.1.A | homo-12-mer | 0.52 | 22.20 | |||
Isoform 10 | 8ct1.1.A | homo-34-mer | 0.76 | 100.00 | |||
Isoform 10 | 8eff.1.A | homo-4-mer | 0.71 | 4×GDP; 4×ALF; 2×MG; 2×K; | 100.00 | ||
Isoform 10 | 8t0k.1.A | homo-4-mer | 0.56 | 22.70 | |||
Isoform 10 | 6ql4.1.A | monomer | 0.54 | 22.17 | |||
Isoform 10 | 6rzt.1.A | homo-12-mer | 0.53 | 22.37 | |||
Isoform 11 | 8ct1.1.A | homo-34-mer | 0.76 | 100.00 | |||
Isoform 11 | 8eff.1.A | homo-4-mer | 0.75 | 4×GDP; 4×ALF; 2×MG; 2×K; | 100.00 | ||
Isoform 11 | 8t0k.1.A | monomer | 0.59 | 26.92 | |||
Isoform 11 | 6rzt.1.A | homo-12-mer | 0.51 | 22.20 | |||
Isoform 13 | 8ct1.1.A | homo-34-mer | 0.77 | 98.59 | |||
Isoform 13 | 8eff.1.A | homo-4-mer | 0.76 | 4×GDP; 4×ALF; 2×MG; 2×K; | 100.00 | ||
Isoform 13 | 8t0k.1.A | monomer | 0.59 | 26.92 | |||
Isoform 13 | 6rzt.1.A | homo-12-mer | 0.52 | 22.06 | |||