Biochemistry, Genetics and Molecular Biology
Bone Development
100%
LC50
100%
Mineralization
100%
Docking (Molecular)
100%
Farnesyl Pyrophosphate
100%
Bone Regeneration
100%
Prenylation
100%
Anabolism
100%
Osteoblast
100%
Synthase
100%
Osteolysis
100%
Binding Affinity
100%
Biological Activity
100%
Cytotoxicity
100%
Mevalonate Pathway
100%
Keyphrases
Bisphosphonates
100%
Biological Evaluation
100%
Osteoblastic Activity
100%
Osteoclastic Activity
100%
Trisphosphonates
100%
Osteoclastic
66%
New Analogs
33%
Two-phase Reaction
33%
Computational Simulation
33%
LC50
33%
Osteoblast Mineralization
33%
Molecular Docking
33%
Bone Disease
33%
Biological Effects
33%
Etidronate
33%
Mineralization Potential
33%
Bone Regeneration
33%
Bone Resorption
33%
Human Farnesyl Pyrophosphate Synthase
33%
Bone Cells
33%
Mevalonate Pathway
33%
Deactivation
33%
Bone Malignancy
33%
Binding Affinity
33%
In Vitro Investigation
33%
Cytotoxic Effect
33%
Prenylation
33%
Pharmacology, Toxicology and Pharmaceutical Science
Bisphosphonic Acid Derivative
100%
Mevalonic Acid
33%
Etidronic Acid
33%
Bone Disease
33%
Synthetase
33%
Farnesyl Diphosphate
33%
Cytotoxicity
33%