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ADMET properties of novel 5-O-benzoylpinostrobin derivatives
Mohammad Rizki Fadhil Pratama
,
Hadi Poerwono
,
Siswandono Siswodiharjo
Department of Pharmaceutical Sciences
Pharmaceutical Science
Pharmaceutical Science
Drug Development
Research output
:
Contribution to journal
›
Article
›
peer-review
47
Citations (SciVal)
Overview
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Agricultural and Biological Sciences
Receptor
100%
Spider Web
100%
CYP2C9
100%
CYP3A4
100%
CYP2C19
100%
Flavanone
100%
Androgen
100%
Cytotoxicity
100%
Prostaglandin
100%
Blood-Brain Barrier
100%
Keyphrases
Absorption Distribution Metabolism Excretion
100%
Pinostrobin
100%
5-O-benzoylpinostrobin
100%
Absorption Parameter
50%
Distribution Parameter
33%
Low Water Solubility
33%
Metabolism Parameters
33%
Excretion Parameter
33%
Toxicity Parameters
33%
Metabolic Profiling
16%
Inhibitory Activity
16%
Prostaglandins
16%
Absorption Feature
16%
Cytotoxic Activity
16%
Flavanones
16%
Androgen Receptor
16%
Web Server
16%
CYP2C19
16%
Distribution Profile
16%
Toxicity Profile
16%
Excretion Profile
16%
SwissADME
16%
Blood-brain Barrier
16%
LD50 Value
16%
ProTox-II
16%
Three-web
16%
Cytochrome P450 3A4 (CYP3A4)
16%
CYP2C9
16%
Total Clearance
16%
Nitro Derivatives
16%
Benzoyl Derivatives
16%
Trifluoromethyl Derivatives
16%
Pharmacology, Toxicology and Pharmaceutical Science
Absorption Distribution Metabolism Excretion
100%
CYP3A4
16%
Flavanone
16%
Synthetase
16%
Nitro Derivative
16%
CYP2C19
16%
Prostaglandin G
16%
CYP2C9
16%
Androgen Receptor
16%
Cytotoxicity
16%
Blood-Brain Barrier
16%