Keyphrases
Lewis Acids
100%
Cascade Cyclization
100%
Ent-kaurane Diterpenoids
100%
Acid Activation
100%
Scalable Synthesis
100%
Concise Synthesis
100%
Conia-ene
100%
Hydroxylation
100%
Phomactin
100%
Formal Synthesis
100%
Natural Products
66%
Synthetic Routes
50%
Ent-kaurane
50%
(+)-Pulegone
50%
Roskamp Reaction
50%
Hydrozirconation
50%
Enones
50%
Sharpless Asymmetric Epoxidation
50%
Reaction Sequence
50%
Synthetic Strategies
50%
Cascade Cyclization Reaction
50%
Geraniol
50%
Tetracyclic
33%
Biological Activity
33%
Mode of Action
16%
Structural Analogues
16%
Medicinal Chemist
16%
Family Members
16%
Ring Systems
16%
Structure-activity Relationship Studies
16%
Functional Groups
16%
Biological Studies
16%
Bond Cleavage
16%
Methoxy
16%
Skeletal Rearrangement
16%
Isolated Bearing
16%
Drug Discovery
16%
Drug Development
16%
Derivative-based
16%
7,20-Epoxy-ent-kaurane Diterpenoids
16%
Steviol
16%
New Medicines
16%
Safety Efficacy
16%
Rational Design
16%
Variable Principle
16%
D-ring
16%
Cleavage Pattern
16%
Gibberellic Acid
16%
Synthetic Chemists
16%
Anti-inflammatory Activity
16%
Safety Profile
16%
Oxygenation
16%
Bioactive Natural Products
16%
Core Structure
16%
Anticancer Activity
16%
Efficient Synthesis
16%
Promising Strategies
16%
Anticancer
16%
Large Families
16%
Further Development
16%
Molecular Probe
16%
Immunosuppressive Activity
16%
Oxygen Bridge
16%
Synthetic Compounds
16%
U.S. Food
16%
Popular
16%
Chemistry
Lewis Acid
100%
Ent-Kaurane Diterpenoid
100%
hydroxylation
100%
Conia-Ene Reaction
100%
Natural Product
71%
Hydrozirconation
50%
(+)-Pulegone
50%
Cyclization Reaction
50%
formation
50%
Sharpless Asymmetric Epoxidation
50%
Geraniol
50%
Enone
50%
Ent-Kaurane
42%
Bioactivity
28%
Gibberellic Acid
14%
Structure-Activity Relationship
14%
Molecular Probe
14%
Cyclic Structure
14%
Drug Discovery
14%
Lead Compound
14%
Antiinflammatory
14%