Chemical Analysis and In Vitro Bioactivity of Essential Oil of Laurelia sempervirens and Safrole Derivatives against Oomycete Fish Pathogens

Chemical Analysis and In Vitro Bioactivity of Essential Oil of Laurelia sempervirens and Safrole Derivatives against Oomycete Fish Pathogens

In this study, the essential oil (EO) from was analyzed by GC/MS and safrole ( ) was identified as the major metabolite , was subjected to direct reactions on the oxygenated groups in the aromatic ring and in the side chain, and eight compounds ( to ) were obtained by the process. EO and compounds -...

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Veröffentlicht in:Molecules (Basel, Switzerland) Switzerland), 2021-10, Vol.26 (21), p.6551
Hauptverfasser: Madrid, Alejandro, Morales, Ana Lizeth, Saffirio, Valentina, Cuellar, Mauricio A, Werner, Enrique, Said, Bastián, Godoy, Patricio, Caro, Nelson, Melo, Mirna, Montenegro, Iván
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Antimicrobial agents
Antiparasitic Agents - chemistry
Antiparasitic Agents - isolation & purification
Antiparasitic Agents - pharmacology
Aquaculture
Aquatic ecosystems
Aromatic compounds
Azoxystrobin
Biological activity
Chemical analysis
Essential oils
Fishes
Hydrocarbons
Infections
Laurelia sempervirens
Magnoliopsida - chemistry
Metabolites
Minimum inhibitory concentration
nitrocompounds
Oils & fats
Oils, Volatile - chemistry
Oils, Volatile - isolation & purification
Oils, Volatile - pharmacology
Parasitic Sensitivity Tests
Pathogens
safrol
Safrole
Safrole - chemistry
Safrole - pharmacology
Saprolegnia
Saprolegnia - drug effects
saprolegniosis
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Beschreibung
Zusammenfassung:In this study, the essential oil (EO) from was analyzed by GC/MS and safrole ( ) was identified as the major metabolite , was subjected to direct reactions on the oxygenated groups in the aromatic ring and in the side chain, and eight compounds ( to ) were obtained by the process. EO and compounds - were subjected to biological assays on 24 strains of the genus , specifically of the species 12 and 12 . EO showed a significant effect against strains. Compound presents the highest activity against two resistant strains, with minimum inhibitory concentration (MIC) and minimum oomyceticidal concentration (MOC) values of 25 to 100 and 75 to 125 µg/mL, respectively. The results show that compound exhibited superior activities compared to the commercial controls bronopol and azoxystrobin used to combat these pathogens.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules26216551