Report error Found 125 Enz. Inhib. hit(s) with all data for entry = 12840
Affinity DataIC50: 0.130nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.188nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.222nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.247nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.272nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.281nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.301nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.351nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.388nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.404nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.409nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.427nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.427nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.473nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.493nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.527nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.574nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.574nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.597nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.602nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.615nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.615nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.635nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.645nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.646nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.660nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.664nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.664nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.687nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.695nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.720nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.720nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.720nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.75nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.765nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.765nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.900nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.900nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.909nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.913nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.915nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.915nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.917nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.919nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.935nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.942nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
Affinity DataIC50: 0.950nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.955nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.985nMAssay Description:A competitive NaV1.7 inhibitor having a methyl group is tritiated. Three tritiums are incorporated in place of methyl hydrogens to generate [3H]compo...More data for this Ligand-Target Pair
Affinity DataIC50: 0.989nMAssay Description:Patch voltage clamp electrophysiology allows for the direct measurement and quantification of block of voltage-gated sodium channels (NaV's), and...More data for this Ligand-Target Pair
