Compile Data Set for Download or QSAR
Report error Found 12 Enz. Inhib. hit(s) with all data for entry = 8994
TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434964BDBM434964(US10584098, Code ELQ-379)
Affinity DataIC50: 2.5nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434960BDBM434960(US10584098, Code ELQ-359)
Affinity DataIC50: 2.5nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434954BDBM434954(US10584098, Code ELQ-336)
Affinity DataIC50: 2.5nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434955BDBM434955(US10584098, Code ELQ-337)
Affinity DataIC50: 2.5nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434962BDBM434962(US10584098, Code ELQ-374)
Affinity DataIC50: 2.70nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434956BDBM434956(US10584098, Code ELQ-354)
Affinity DataIC50: 3nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434961BDBM434961(US10584098, Code ELQ-373)
Affinity DataIC50: 3.10nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434953BDBM434953(US10584098, Code ELQ-300)
Affinity DataIC50: 3.10nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434958BDBM434958(US10584098, Code ELQ-357)
Affinity DataIC50: 3.5nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434957BDBM434957(US10584098, Code ELQ-355)
Affinity DataIC50: 3.90nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434959BDBM434959(US10584098, Code ELQ-358)
Affinity DataIC50: 6nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent

TargetChloroquine resistance transporter(malaria parasite P. falciparum)
Oregon Health & Science University

US Patent
LigandChemical structure of BindingDB Monomer ID 434963BDBM434963(US10584098, Code ELQ-375)
Affinity DataIC50: 8.20nMAssay Description:In vitro experiments show that the intrinsic antiplasmodial activity of ethylcarbonate ester ELQ-337 is indistinguishable from ELQ-300, with IC50 val...More data for this Ligand-Target Pair
In Depth
Date in BDB:
11/29/2020
Entry Details Article
US Patent