Aqueous enzyme-ultrasonic pretreatment for efficient isolation of essential oil from Artemisia argyi and investigation on its chemical composition and biological activity

•Enzyme-ultrasonic pretreatment promotes the efficient isolation of essential oil.•Enzyme, ultrasound, and microwave affect the essential oil kinetic and composition.•A higher proportion of oxygenated components is obtained after pretreatment.•Artemisia argyi essential oil has excellent antioxidant...

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Published inIndustrial crops and products Vol. 158; p. 113031
Main Authors Zhang, Qiang, Gao, Wenbin, Guo, Yu, Li, Yan, Cao, Xifeng, Xu, Wen, Yang, Lei, Chen, Fengli
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.12.2020
Subjects
antioxidant activity
Artemisia argyi
Biological activity
borneol
camphor
cellulose
chemical composition
cineole
cytotoxicity
Enzyme
Essential oil
essential oils
experimental design
hydrodistillation
microwave treatment
papain
Phytophthora
polygalacturonase
reaction mechanisms
temperature
ultrasonics
Ultrasound
Artemisia argyi
Essential oil
Enzyme
Ultrasound
Biological activity
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Abstract •Enzyme-ultrasonic pretreatment promotes the efficient isolation of essential oil.•Enzyme, ultrasound, and microwave affect the essential oil kinetic and composition.•A higher proportion of oxygenated components is obtained after pretreatment.•Artemisia argyi essential oil has excellent antioxidant and antifungal activity. The in-depth study of plant essential oil (EO) to provide valuable resources for the development of natural medicinal products is one of the current research hotspots. The present work realized the efficient isolation of EO from Artemisia argyi leaves using aqueous enzyme-ultrasonic pretreatment followed by microwave-assisted hydrodistillation (EUP-MHD). Because of the synergistic reaction mechanism, the combination of enzyme and ultrasound doubly improved the separation of EO. After the optimization process (single factor experiments, Plackett–Burman design, and Box–Behnken design), mixed enzyme (cellulose + pectinase + papain), concentration of 10 U/mg, ultrasonic frequency of 45 kHz, ultrasonic power of 200 W, ultrasonic time of 20 min, reaction temperature of 50 °C, pH of 5, microwave power of 650 W, microwave time of 10 min, and liquid-solid ratio of 10 mL/g performed best, with the yield of EO of 5.32 ± 0.20 mg/g. A distinct advantage of this technique was found as compared with other techniques, which highlighted the positive influence of the pretreatment process. Additionally, the oxygenated components of EO from EUP-MHD accounted for a higher proportion than other methods, including eucalyptol, borneol, camphor, neointermedeol, and terpinen-4-ol. Finally, the evaluation of the biological activity of A. argyi EO pointed out that the EO had excellent antioxidant activity and higher inhibitory activity against Phytophthora capsica but presented weaker cytotoxic activity. In general, the technique used in this study is promising in the field of separating EO from crop materials.
AbstractList The in-depth study of plant essential oil (EO) to provide valuable resources for the development of natural medicinal products is one of the current research hotspots. The present work realized the efficient isolation of EO from Artemisia argyi leaves using aqueous enzyme-ultrasonic pretreatment followed by microwave-assisted hydrodistillation (EUP-MHD). Because of the synergistic reaction mechanism, the combination of enzyme and ultrasound doubly improved the separation of EO. After the optimization process (single factor experiments, Plackett–Burman design, and Box–Behnken design), mixed enzyme (cellulose + pectinase + papain), concentration of 10 U/mg, ultrasonic frequency of 45 kHz, ultrasonic power of 200 W, ultrasonic time of 20 min, reaction temperature of 50 °C, pH of 5, microwave power of 650 W, microwave time of 10 min, and liquid-solid ratio of 10 mL/g performed best, with the yield of EO of 5.32 ± 0.20 mg/g. A distinct advantage of this technique was found as compared with other techniques, which highlighted the positive influence of the pretreatment process. Additionally, the oxygenated components of EO from EUP-MHD accounted for a higher proportion than other methods, including eucalyptol, borneol, camphor, neointermedeol, and terpinen-4-ol. Finally, the evaluation of the biological activity of A. argyi EO pointed out that the EO had excellent antioxidant activity and higher inhibitory activity against Phytophthora capsica but presented weaker cytotoxic activity. In general, the technique used in this study is promising in the field of separating EO from crop materials.
•Enzyme-ultrasonic pretreatment promotes the efficient isolation of essential oil.•Enzyme, ultrasound, and microwave affect the essential oil kinetic and composition.•A higher proportion of oxygenated components is obtained after pretreatment.•Artemisia argyi essential oil has excellent antioxidant and antifungal activity. The in-depth study of plant essential oil (EO) to provide valuable resources for the development of natural medicinal products is one of the current research hotspots. The present work realized the efficient isolation of EO from Artemisia argyi leaves using aqueous enzyme-ultrasonic pretreatment followed by microwave-assisted hydrodistillation (EUP-MHD). Because of the synergistic reaction mechanism, the combination of enzyme and ultrasound doubly improved the separation of EO. After the optimization process (single factor experiments, Plackett–Burman design, and Box–Behnken design), mixed enzyme (cellulose + pectinase + papain), concentration of 10 U/mg, ultrasonic frequency of 45 kHz, ultrasonic power of 200 W, ultrasonic time of 20 min, reaction temperature of 50 °C, pH of 5, microwave power of 650 W, microwave time of 10 min, and liquid-solid ratio of 10 mL/g performed best, with the yield of EO of 5.32 ± 0.20 mg/g. A distinct advantage of this technique was found as compared with other techniques, which highlighted the positive influence of the pretreatment process. Additionally, the oxygenated components of EO from EUP-MHD accounted for a higher proportion than other methods, including eucalyptol, borneol, camphor, neointermedeol, and terpinen-4-ol. Finally, the evaluation of the biological activity of A. argyi EO pointed out that the EO had excellent antioxidant activity and higher inhibitory activity against Phytophthora capsica but presented weaker cytotoxic activity. In general, the technique used in this study is promising in the field of separating EO from crop materials.
ArticleNumber 113031
Author Gao, Wenbin
Guo, Yu
Yang, Lei
Zhang, Qiang
Li, Yan
Xu, Wen
Cao, Xifeng
Chen, Fengli
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  organization: College of Life Science, Institute of Life Science and Green Development, Hebei University, Baoding, 071002, China
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Keywords Artemisia argyi
Essential oil
Enzyme
Ultrasound
Biological activity
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Snippet •Enzyme-ultrasonic pretreatment promotes the efficient isolation of essential oil.•Enzyme, ultrasound, and microwave affect the essential oil kinetic and...
The in-depth study of plant essential oil (EO) to provide valuable resources for the development of natural medicinal products is one of the current research...
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SubjectTerms antioxidant activity
Artemisia argyi
Biological activity
borneol
camphor
cellulose
chemical composition
cineole
cytotoxicity
Enzyme
Essential oil
essential oils
experimental design
hydrodistillation
microwave treatment
papain
Phytophthora
polygalacturonase
reaction mechanisms
temperature
ultrasonics
Ultrasound
Title Aqueous enzyme-ultrasonic pretreatment for efficient isolation of essential oil from Artemisia argyi and investigation on its chemical composition and biological activity
URI https://dx.doi.org/10.1016/j.indcrop.2020.113031
https://www.proquest.com/docview/2524255956
Volume 158
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