TargetSodium channel protein type 9 subunit alpha/subunit beta-1/subunit beta-2(Mus musculus)
Daiichi Sankyo
Curated by ChEMBL
Daiichi Sankyo
Curated by ChEMBL
Affinity DataIC50: 0.550nMAssay Description:Inhibition of mouse NaV1.7/beta1/beta2 expressed in HEK293A cells by Ionworks high-throughput electrophysiology methodMore data for this Ligand-Target Pair
Affinity DataIC50: 1.90nMAssay Description:Inhibition of human NaV1.7/beta1/beta2 expressed in HEK293A cells by Ionworks high-throughput electrophysiology methodMore data for this Ligand-Target Pair
Affinity DataIC50: 2.60nMAssay Description:Inhibition of NaV1.7 ion channel (unknown origin)More data for this Ligand-Target Pair
Affinity DataIC50: 3nMAssay Description:Inhibition of human NaV1.7 expressed in HEK cells assessed as half inactivation potential at -120 mV holding potential by automated patch clamp metho...More data for this Ligand-Target Pair
Affinity DataIC50: 264nMAssay Description:Inhibition of CYP2C9 (unknown origin)More data for this Ligand-Target Pair
Affinity DataIC50: 427nMAssay Description:Inhibition of CYP3A4 (unknown origin)More data for this Ligand-Target Pair
Affinity DataIC50: 2.93E+4nMAssay Description:Inhibition of human NaV1.5 expressed in HEK cells assessed as half inactivation potential at -120 mV holding potential by automated patch clamp metho...More data for this Ligand-Target Pair
TargetSodium channel protein type 5 subunit alpha/subunit beta-1/subunit beta-2(Homo sapiens (Human))
Daiichi Sankyo
Curated by ChEMBL
Daiichi Sankyo
Curated by ChEMBL
Affinity DataIC50: 7.50E+4nMAssay Description:Inhibition of human NaV1.5/beta1/beta2 expressed in HEK293A cells by Ionworks high-throughput electrophysiology methodMore data for this Ligand-Target Pair
TargetSodium channel protein type 1 subunit alpha/subunit beta-1/subunit beta-2(Homo sapiens (Human))
Daiichi Sankyo
Curated by ChEMBL
Daiichi Sankyo
Curated by ChEMBL
Affinity DataIC50: >1.00E+5nMAssay Description:Inhibition of human NaV1.1/beta1/beta2 expressed in HEK293A cells by Ionworks high-throughput electrophysiology methodMore data for this Ligand-Target Pair