Medicine and Dentistry
In Vitro
100%
Steroidogenesis
100%
Benzodiazepine
100%
Benzodiazepine Derivative
100%
PK-11195
71%
Secretion (Process)
71%
Binding Site
71%
4' Chlorodiazepam
57%
Diazepam
42%
Receptor
14%
Progesterone
14%
Diethylstilbestrol
14%
Low Drug Dose
14%
Drug Megadose
14%
Clonazepam
14%
Carboxamide
14%
Keyphrases
Benzodiazepines
100%
Modulatory
100%
Placental Steroidogenesis
100%
PK11195
71%
Binding Site
42%
Diazepam
42%
Expiant
42%
Ligand-specific
28%
High Dose
14%
High Affinity
14%
Stimulatory Effect
14%
Central Type
14%
Progesterone
14%
Clonazepam
14%
Benzodiazepine Binding Site
14%
Equilibrium Dissociation Constant
14%
Placental Explants
14%
Estradiol-17
14%
Carboxamide Derivatives
14%
Number of Binding Sites
14%
Isoquinoline
14%
Biochemistry, Genetics and Molecular Biology
Benzodiazepine
100%
Steroid Biosynthesis
100%
Binding Site
71%
Secretion (Process)
71%
Diazepam
42%
Low Drug Dose
14%
Drug Megadose
14%
Dissociation Constant
14%
Explant
14%
Progesterone
14%
Estradiol
14%
Clonazepam
14%
Neuroscience
In Vitro
100%
Benzodiazepine
100%
Binding Site
71%
PK-11195
71%
Diazepam
42%
Diethylstilbestrol
14%
Progesterone
14%
Isoquinoline
14%
Carboxamide
14%
Receptor
14%
Clonazepam
14%
Veterinary Science and Veterinary Medicine
Steroidogenesis
100%
Benzodiazepine
100%
Binding Site
71%
Diazepam
42%
Diethylstilbestrol
14%
Progesterone
14%
Clonazepam
14%
Pharmacology, Toxicology and Pharmaceutical Science
Benzodiazepine
100%
Binding Site
71%
4' Chlorodiazepam
57%
Diazepam
42%
Receptor
14%
Diethylstilbestrol
14%
Clonazepam
14%
Progesterone
14%
Carboxamide
14%
Isoquinoline
14%