Keyphrases
Candida Albicans (C. albicans)
100%
Bioactive Compounds
100%
Biofilm Formation
100%
Cinnamomum Zeylanicum
100%
Computational Prediction
100%
Agglutinin-like Sequence
100%
Hydrochloride
85%
Pyrantel
85%
ALS3
85%
C. Zeylanicum
71%
Candidiasis
57%
C.albicans
42%
Inhibitory Effect
28%
Binding Affinity
28%
Molecular Dynamics Simulation
28%
Antifungal Agents
28%
Biofilm
14%
Molecular Docking
14%
Binding Energy
14%
Protein Structure
14%
Hydrogen Bonds (H-bonds)
14%
Inhibitory Activity
14%
Pathogenicity
14%
Docking Dynamics
14%
Protease
14%
Cinnamaldehyde
14%
Potential Alternatives
14%
Complex Interactions
14%
Affinity Values
14%
Catalytic Residues
14%
Bioactive Constituents
14%
Binding Interaction
14%
Interaction Patterns
14%
Anticandidiasis
14%
Bioactive Chemicals
14%
Cyclopentane
14%
Antifungal Strategy
14%
Binding Energy Calculations
14%
Fungal Resistance
14%
Eugenics
14%
Novel Antifungals
14%
Biochemistry, Genetics and Molecular Biology
Candida Albicans
100%
Cinnamomum zeylanicum
100%
Agglutinin
100%
Biofilm
100%
Pyrantel
85%
Binding Affinity
28%
Computer Simulation
28%
Gene Sequence
14%
Protein Structure
14%
Hydrogen Bond
14%
Docking (Molecular)
14%
Binding Energy
14%
Protease
14%
Pharmacology, Toxicology and Pharmaceutical Science
Candida Albicans
100%
Cinnamomum zeylanicum
100%
Agglutinin
100%
Pyrantel
85%
Candidiasis
71%
Infection
14%
Proteinase
14%
Antifungal Agent
14%
Hydrogen Bond
14%
Eugenol
14%
Pathogenicity
14%
Cinnamaldehyde
14%
Resistance to Antifungal Agent
14%
Cyclopentane
14%
Immunology and Microbiology
Candida Albicans
100%
Biofilm
100%
Cinnamomum zeylanicum
100%
Agglutinin
100%
Binding Affinity
28%
Computer Simulation
28%
Gene Sequence
14%
Pathogenicity
14%
Molecular Docking
14%
Protein Structure
14%
Hydrogen Bond
14%