Keyphrases
Anticancer Drugs
100%
Paclitaxel
100%
Metabolic Engineering Strategies
100%
Yew Tree
27%
Taxus
18%
Methyl Jasmonate (MeJA)
18%
Gene Overexpression
18%
Biotic Elicitors
18%
Taxus Species
18%
Bioreactor
9%
Cell Suspension Culture
9%
Targeted Drugs
9%
Overproduction
9%
U.S. Food
9%
Cancer Types
9%
Ectopic Expression
9%
Breast Cancer
9%
Lung Cancer
9%
Engineering Approach
9%
Scar Tissue
9%
Kaposi Sarcoma
9%
Ovarian Cancer
9%
Biosynthetic Pathway
9%
Abscisic Acid
9%
Metabolic Engineering
9%
Plant Defense
9%
Salicylic Acid
9%
Taxanes
9%
Terpenoids
9%
Coronatine
9%
Arterial Stent
9%
Jasmonate Acid
9%
Endophytic Fungi
9%
Diterpenoids
9%
Taxane Skeleton
9%
Paclitaxel Biosynthesis
9%
Suspension Cell Line
9%
Abiotic Elicitors
9%
Molecular Engineering Strategy
9%
Immunology and Microbiology
Tree
100%
Metabolic Engineering
100%
Taxus
100%
Cell Line
25%
Skeleton
25%
Dry Weight
25%
Coculture
25%
Biosynthesis
25%
Ectopic Expression
25%
Salicylic Acid
25%
Suspension Cell Culture
25%
Bioreactor
25%
Scar Tissue
25%
Endophytic Fungus
25%
Pharmacology, Toxicology and Pharmaceutical Science
Anticarcinogen
100%
Paclitaxel
100%
Tree
33%
Taxus
33%
Taxane
16%
Jasmonic Acid Methyl Ester
16%
Salicylic Acid
8%
Malignant Neoplasm
8%
Breast Cancer
8%
Lung Cancer
8%
Abscisic Acid
8%
Ovary Cancer
8%
Kaposi Sarcoma
8%
Diterpenoid
8%
Cell Suspension Culture
8%
Terpenoid
8%
Endophytic Fungus
8%
Coronatine
8%