Compile Data Set for Download or QSAR
Report error Found 17 Enz. Inhib. hit(s) with all data for entry = 50007297
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50500325(Cb 5083 | Cb-5083)
Affinity DataIC50: 27nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508308(CHEMBL4451017)
Affinity DataIC50: 35nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508300(CHEMBL4461505)
Affinity DataIC50: 36nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508305(CHEMBL4453010)
Affinity DataIC50: 58nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508307(CHEMBL4455739)
Affinity DataIC50: 83nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508312(CHEMBL4573319)
Affinity DataIC50: 101nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508313(CHEMBL4439188)
Affinity DataIC50: 120nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508298(CHEMBL4530376)
Affinity DataIC50: 129nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508301(CHEMBL4461462)
Affinity DataIC50: 135nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508306(CHEMBL4581661)
Affinity DataIC50: 161nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508299(CHEMBL4468726)
Affinity DataIC50: 193nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508310(CHEMBL4576017)
Affinity DataIC50: 308nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508309(CHEMBL4473427)
Affinity DataIC50: 387nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508304(CHEMBL4584967)
Affinity DataIC50: 447nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508303(CHEMBL4555198)
Affinity DataIC50: 449nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508311(CHEMBL4445574)
Affinity DataIC50: 922nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed
TargetTransitional endoplasmic reticulum ATPase(Human)
Nanjing Normal University

Curated by ChEMBL
LigandPNGBDBM50508302(CHEMBL4574654)
Affinity DataIC50: 5.11E+3nMAssay Description:Inhibition of human p97 using ATP as substrate after 60 mins by ADP-Glo assayMore data for this Ligand-Target Pair
In Depth
Date in BDB:
2/19/2021
Entry Details Article
PubMed