TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 1nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 2nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 3nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 5nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 6nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 7nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 10nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 11nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 11nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 11nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 12nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 13nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 13nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 14nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 14nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 16nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 16nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 17nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 18nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 19nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 19nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 20nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 24nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 26nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 26nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 27nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 28nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 29nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 30nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 30nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 30nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 31nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 32nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 34nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 35nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 36nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 37nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 39nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 40nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 44nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 44nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 46nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 46nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 47nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 50nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 51nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 51nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 52nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 54nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair
TargetSodium channel protein type 10 subunit alpha(Homo sapiens (Human))
Vertex Pharmaceuticals
US Patent
Vertex Pharmaceuticals
US Patent
Affinity DataIC50: 54nMAssay Description:Sodium channels are voltage-dependent proteins that can be activated by inducing membrane voltage changes by applying electric fields. The electrical...More data for this Ligand-Target Pair