TargetAcetylcholinesterase(Electrophorus electricus (Electric eel))
Istituto Di Chimica Biomolecolare (Icb)
Curated by ChEMBL
Istituto Di Chimica Biomolecolare (Icb)
Curated by ChEMBL
Affinity DataKi: 0.000590nMAssay Description:Inhibition of Electrophorus electricus AChE using acetylthiocholine iodide as substrate by Dixon plot analysisMore data for this Ligand-Target Pair
TargetAcetylcholinesterase(Electrophorus electricus (Electric eel))
Istituto Di Chimica Biomolecolare (Icb)
Curated by ChEMBL
Istituto Di Chimica Biomolecolare (Icb)
Curated by ChEMBL
Affinity DataKi: 0.0585nMAssay Description:Inhibition of Electrophorus electricus AChE using acetylthiocholine iodide as substrate by Dixon plot analysisMore data for this Ligand-Target Pair
TargetAcetylcholinesterase(Electrophorus electricus (Electric eel))
Istituto Di Chimica Biomolecolare (Icb)
Curated by ChEMBL
Istituto Di Chimica Biomolecolare (Icb)
Curated by ChEMBL
Affinity DataKi: 0.221nMAssay Description:Inhibition of Electrophorus electricus AChE using acetylthiocholine iodide as substrate by Dixon plot analysisMore data for this Ligand-Target Pair
Affinity DataKi: 0.700nM ΔG°: -51.9kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 2.5nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 2.60nM ΔG°: -48.7kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 3.20nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 3.5nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 3.5nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 3.60nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 3.70nM ΔG°: -47.8kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 4nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 5nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 5.70nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 7nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 7nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 7.90nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 7.90nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 8nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 8.20nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 8.70nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 8.90nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9nM ΔG°: -45.6kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9.10nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9.10nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9.30nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9.30nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9.5nM ΔG°: -45.3kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 9.70nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 10nM ΔG°: -45.2kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 10nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 11nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 12nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 12nM ΔG°: -44.9kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 14nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 14.6nM ΔG°: -44.4kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 15nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 15nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 16nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 17nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 17nM ΔG°: -43.9kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 18nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 18nM ΔG°: -43.8kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 18nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 23.1nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 24nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 24nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 24.5nM ΔG°: -43.1kJ/molepH: 7.5 T: 2°CAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair
Affinity DataKi: 25nMAssay Description:An Applied Photophysics stopped-flow instrument has been used for assaying the CA-catalyzed CO2 hydration activity. Phenol red has been used as indic...More data for this Ligand-Target Pair