1. bookVolume 5 (2022): Edition 1 (June 2022)
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2668-5124
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30 Sep 2019
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Chemical Constituents of the Essential Oil from Salvia Verbenaca ssp. Clandestina from Algerian Pre-Sahara

Publié en ligne: 09 Jul 2022
Volume & Edition: Volume 5 (2022) - Edition 1 (June 2022)
Pages: 34 - 40
Reçu: 09 May 2022
Accepté: 06 Jun 2022
Détails du magazine
License
Format
Magazine
eISSN
2668-5124
Première parution
30 Sep 2019
Périodicité
2 fois par an
Langues
Anglais

1. Adams RP (2007). Identification of essential oil components by gas chromatography/mass spectrometry. 4th Ed. Allured, Carol Stream, Illinois. Search in Google Scholar

2. Akin M, Demirci B, Bagci Y, Baser KHC (2010). Antibacterial activity and composition of the essential oils of two endemic Salvia sp. from Turkey. Afr. J. Biotechnol. 9:2322-2327. Search in Google Scholar

3. Basaif SA (2004). Chemical constituents of Salvia aegyptiaca, journal of King Abdulaziz University-Science. 16: 33-39. Search in Google Scholar

4. Belkassam A, Zellagui A, Gherraf N, Flamini G, Cioni P L, Rebbas K and Smaili T (2019). Assessment of antioxidant effect of the essential oil and methanol extract of Centaurea dimorpha Viv. aerial parts from Algeria, Acta Scientifica Naturalis, 6(1): 54-62. Search in Google Scholar

5. Belloum Z, Chalard P, Figuérédo G, Marchioni E, Zao M, Benayache S (2014). Chemical composition of the essential oil of Salvia verbenaca (L.) Briq. ssp. clandestina (L.) Pugsl. Research journal of pharmaceutical, biological and chemical sciences, 5(6): 262-265. Search in Google Scholar

6. Bozin B, Mimica-Dukic N, Samojlik I, Jovin E (2007). Antimicrobial and antioxidant properties of rosemary and sage (Rosmarinus officinalisL. and Salvia officinalis L. (Lamiaceae) essential oils. J. Agr. Food Chem.55:7879-7885. Search in Google Scholar

7. Chan HH, Hwang TL, Su CR, Reddy MV, Wu TS (2011). Anti-inflammatory. anticholinesterase and antioxidative constituents from the roots and the leaves of Salvia nipponica Miq. var. formosana. Phytomedicine. 18:148-150. Search in Google Scholar

8. Da Silva CED L, da Costa WF, Minguzzi S, da Silva RCD L, Simionatto E (2013). Assessment of volatile chemical composition of the essential oil of Jatropha ribifolia (Pohl) baill by HS-SPME-GC-MS using different fibers. Journal of Analytical Methods in Chemistry.10.1155/2013/352606385926124371539 Search in Google Scholar

9. Davies NW (1990). Gas chromatographic retention indices of monoterpenes and sesquiterpenes on methyl silicone and Carbowax 20M phases, J. Chromatogr. 50, 1-24. Search in Google Scholar

10. Delamare APL, Moschen-Pistorello IT, Artico L, Atti-Serafini L, Echeverrigaray S (2007). Antibacterial activity of the essential oils of Salvia officinalis L. and Salvia triloba L. cultivated in South Brazil. Food Chem. 100: 603-608. Search in Google Scholar

11. El-Sawi SA (2003). Chemical composition of the essential oil of Salvia aegyptiaca L. Bulletin of the national research centre (Egypt). 28(2):139-150. Search in Google Scholar

12. Flamini G, Cioni PL, Morelli I, Bader A (2007). Essential oils of the aerial parts of three Salvia species from Jordan: Salvia lanigera. S. spinosa and S. syriaca. Food Chem. 100: 732-735. Search in Google Scholar

13. Flamini G, Smaili T, Zellagui A, Gherraf N, Cioni PL (2013). Effect of growth stage on essential-oil yield and composition of Daucus sahariensis, Chemistry & Biodiversity. 10, 2014-2020. Search in Google Scholar

14. Fraternale D, Giamperi L, Bucchini A, Ricci D, Epifano F,Genovese S, Curini M (2005). Composition and antifungal activity of essential oil of Salvia sclarea from Italy. Chem. Nat. Comp. 41(5): 604-606. Search in Google Scholar

15. Hao DC, Gu XJ, Xiao PG (2015). Phytochemical and biological research of Salvia medicinal resources. Medicinal Plants, Woodhead Publishing, pp 587-639.10.1016/B978-0-08-100085-4.00014-1 Search in Google Scholar

16. Jassbi AR, Asadollahi M, Masroor M, Schuman MC, Mehdizadeh Z, Soleimani M andMiri R. (2012). Chemical classification of the essential oils of the Iranian Salvia species in comparison with their botanical taxonomy, Chem Biodivers. 9(7): 1254-1271. Search in Google Scholar

17. Kamatou GPP, Viljoen AM, Gono-Bwalya AB, Van Zyl RL, Van Vuuren SF, Lourens ACU, Başer KHC, Demirci B, Lindsey KL, Van Staden J, Steenkamp P. (2005). The in vitro pharmacological activities and a chemical investigation of three South African Salvia species. J. Ethnopharmacol. 102: 382-390. Search in Google Scholar

18. Kelen M, Tepe B (2008). Chemical composition. antioxidant and antimicrobial properties of the essential oils of three Salvia species from Turkish flora. Bioresource Technol. 99: 4096-4104. Search in Google Scholar

19. Kivrak I, Duru ME, Öztürk M, Mercan N, Harmandar M, Topçu G (2009). Antioxidant, anticholinesterase and antimicrobial constituents from the essential oil and ethanol extract of Salvia potentillifolia. Food Chem. 116: 470-479. Search in Google Scholar

20. Lu Y, Foo LY (2002). Polyphenolics of Salvia-a review, Phytochemistry. 59, 117-140. Search in Google Scholar

21. Miguel G, Cruz C, Faleiro ML, Simões MTF, Figueiredo AC, Barroso JG, Pedro LG (2011). Salvia officinalis L. essential oils: effect of hydrodistillation time on the chemical composition. antioxidant and antimicrobial activities. Nat. Prod. Res. 25:526-541. Search in Google Scholar

22. Mohammadi S, Chalard P, Figuérédo G, Marchioni E, Zao M, Benayache F, Benayache S (2014).Chemical composition of the essential oil of Salvia aegyptiaca L. Research journal of pharmaceutical, biological and chemical sciences. 5(6), 207-210. Search in Google Scholar

23. Orhan I, Kartal M, Naz Q, Ejaz A, Yilmaz G, Kan Y, Konuklugil B, Sener B, Choudhary MI (2007). Antioxidant and anticholinesterase evaluation of selected Turkish Salvia species. Food Chem. 103:1247-1254. Search in Google Scholar

24. Ozenda, P (1991). Flore et végétation du Sahara, 3eme édition, Centre National de la Recherche Scientifique (C.N.R.S), Paris. Search in Google Scholar

25. Ozturk M, Tel G, Duru ME, Harmandar M, Topçu G (2009). The effect of temperature on the essential oil components of Salvia potentillifolia obtained by various methods. Nat. Prod. Commun. 4(7):1017-1020. Search in Google Scholar

26. Quezel P, Santa S (1963). Nouvelle flore de L’Algérie et des régions désertiques méridionales, Tome II, Editions du Centre National de la Recherche Scientifique (C.N.R.S), 15 Quai Anatole France, Paris. Search in Google Scholar

27. Shafaie F, Aramideh S, Valizadegan O, Safaralizadeh MH, Pesyan NN (2019). GC/MS analysis of the essential oils of Cupressus arizonica Greene, Juniperus communis L. and Mentha longifolia L. Bulletin of the Chemical Society of Ethiopia. 33(3): 389-400. Search in Google Scholar

28. Smaili T, Zellagui A, Cioni PL, Flamini G (2011). A Myristicin-rich essential Oil from Daucus sahariensis growing in Algeria, Natural Product Communications, 6, 883-886.10.1177/1934578X1100600631 Search in Google Scholar

29. Smaili T, Bendif H, Zedam A, Flamini G, Maggi F (2021). A new chemotype with high tricyclene content from the essential oil of Salvia aegyptiaca L. growing in Algerian Pre-Sahara, Natural Product Research, 1-6. Search in Google Scholar

30. Tenore GC, Ciampaglia R, Arnold NA, Piozzi F, Napolitano F, Rigano D, Senatore F (2010). Antimicrobial and antioxidant properties of the essential oil of Salvia lanigera from Cyprus. Food Chem. Tox. 49(1):238-243. Search in Google Scholar

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