The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities

Göger, Fatih; Süzgeç Selçuk, Sevda; Baser, Kemal Husnu Can; Gurdal, Bahar; Ozek, Gulmira; Gulsoy Toplan, Gizem; Yur, Süleyman; Ozek, Temel; Mericli, Ali Hikmet

doi:http://doi.org/10.25135/rnp.185.20.03.1579

The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities

Sevda SÜZGEÇ SELÇUK, (İstanbul Üniversitesi, Eczacılık Fakültesi, Farmakognozi Anabilim Dalı, 34116, İstanbul, Türkiye)

Temel ÖZEK, (Anadolu Üniversitesi, Eczacılık Fakültesi, Farmakognozi Anabilim Dalı, 26470, Eskişehir, Türkiye / Tıbbi Bitki, İlaç ve Bilimsel Araştırma ve Uygulama Merkezi (AUBIBAM), Anadolu Üniversitesi, 26470 Eskişehir, Türkiye)

Gülmira ÖZEK, (Anadolu Üniversitesi, Eczacılık Fakültesi, Farmakognozi Anabilim Dalı, 26470, Eskişehir, Türkiye)

Süleyman YUR, (Anadolu Üniversitesi, Eczacılık Fakültesi, Farmakognozi Anabilim Dalı, 26470, Eskişehir, Türkiye / Tıbbi Bitki, İlaç ve Bilimsel Araştırma ve Uygulama Merkezi (AUBIBAM), Anadolu Üniversitesi, 26470 Eskişehir, Türkiye)

Fatih GÖGER, (Anadolu Üniversitesi, Eczacılık Fakültesi, Farmakognozi Anabilim Dalı, 26470, Eskişehir, Türkiye / Tıbbi Bitki, İlaç ve Bilimsel Araştırma ve Uygulama Merkezi (AUBIBAM), Anadolu Üniversitesi, 26470 Eskişehir, Türkiye)

Bahar GÜRDAL, (İstanbul Üniversitesi, Eczacılık Fakültesi, Farmasötik Botanik Anabilim Dalı, 34116, İstanbul, Türkiye)

Gizem GULSOY TOPLAN, (İstanbul Üniversitesi, Eczacılık Fakültesi, Farmakognozi Anabilim Dalı, 34116 ,İstanbul, Türkiye)

Ali Hikmet MERİCLİ, (Near East University, Faculty of Pharmacy, Department of Pharmacognosy, Nicosia, Turkish Republic of Northern Cyprus)

K. Husnu Can BASER (Near East University, Faculty of Pharmacy, Department of Pharmacognosy, Nicosia, Turkish Republic of Northern Cyprus)

Records of Natural Products

6 0

Yıl: 2021 Cilt: 15 Sayı: 1 Sayfa Aralığı: 10 - 24 Metin Dili: İngilizce DOI: http://doi.org/10.25135/rnp.185.20.03.1579 İndeks Tarihi: 13-05-2021

The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities

Öz:

In this study two different extraction techniques namely, conventional hydrodistillation (HD) and micro-steam distillation-solid-phase microextraction (MSD-SPME), were used to analyze the volatile constituents from the leaves and the galls of Salvia fruticosa Mill. by gas chromatography (GC-FID) and gas chromatography coupled to mass spectrometry (GC-MS). The oxygenated monoterpenes (62.4-69.3%) were found to be predominating compound group with 1,8-cineole and camphor as the main constituents in all the tested samples with the exception of the gall oil in which oxygenated sesquiterpenes (25.6%) and diterpenes (17.3%) were detected in high percentages. Qualitative differences of the volatiles obtained by HD and MSD-SPME techniques from the leaf and the galls are discussed. The resulting leaf essential oils were evaluated for their in vitro acetylcholinesterase (AChE) inhibition potential. In vitro DPPH scavenging, and Cupric Reducing Antioxidant Capacity (CUPRAC) assays were used to evaluate the leaf essential oils. AChE inhibition 41.2% and antioxidant 36.8% assays results showed moderate levels of activity. In this present study, to the best of our knowledge comparative leaf and gall volatiles of S. fruticosa was reported for first time.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1] F. Celep and T. Dirmenci (2017). Systematic and biogeographic overview of Lamiaceae in Turkey, Nat. Volat. Essent. Oils, 4, 14-27.
2] K.H.C. Baser and N. Kırımer (2018). Essential oils of Anatolian Lamiaceae - An update, Nat. Volat. Essent. Oils, 5, 1-28.
[3] Hedge, I. C. in 'Salvia L.', Ed. P. H. Davis (1982). Flora of Turkey and the East Aegean Islands 7, University of Edinburgh Press, Edinburgh, pp. 400-461.
[4] D. Rivera, C. Obon and F. Cano (1994). The botany, history and traditional uses of three-lobed sage (Salvia fruticosa Miller) (Labiatae), Econ. Bot. 48, 190-195.
[5] S. D. Hatipoglu, N. Zorlu, T. Dirmenci, A. C. Goren, T. Ozturk and G. Topcu (2016). Determination of volatile organic compounds in fourty five Salvia species by thermal desorption-GC-MS technique, Rec. Nat. Prod. 10, 659-700.
[6] K. H. C. Baser (2002). Aromatic biodiversity among the flowering plant taxa of Turkey, Pure Appl. Chem. 74, 527-545.
[7] Baser, K.H.C. (2000). Production of Salvia oil in Mediterranean countries. In: Kintzios, S.E., editor. Sage the Genus Salvia. Harwood Academic Publishers, Amsterdam, The Netherlands, pp. 263-268.
[8] N. A. Jaradat, O. I. Ayesh and C. Anderson (2016). Ethnopharmacological survey about medicinal plants utilized by herbalists and traditional practitioner healers for treatments of diarrhea in the West Bank/Palestine, J. Ethnopharmacol. 182, 57-66.
[9] H. Gali-Muhtasib, C. Hilan and C. Khater (2000). Traditional uses of Salvia libanotica (East Mediterranean sage) and the effects of its essential oils, J. Ethnopharmacol. 71, 513-520.
[10] I. Uysal, S. Gucel, T. Tutenocakli and M. Ozturk (2012). Studies on the medicinal plants of AyvacikÇanakkale in Turkey, Pak. J. Bot. 44, 239-244.
[11] E. Tuzlacı (2005). Bodrum'da Bitkiler ve Yaşam. Ali Rıza Baskan, Güzel Sanatlar Matbaası A.Ş, Istanbul.
[12] R. Boukhary, K. Raafat, A. I. Ghoneim, M. Aboul-Ela and A. El-Lakany (2016). Anti-inflammatory and antioxidant activities of Salvia fruticosa: An HPLC determination of phenolic contents, Evid-Based Compl. Alt. Med. ID 7178105, six pages.
[13] C. Saricoban and M. Ozcan (2004). Antioxidative activity of rosemary (Rosmarinus officinalis L.) and sage (Salvia fruticosa L.), Essent. Oils Chicken Fat. 7, 91-95.
[14] M. Vergine, F. Nicolì, C. Negro, A. Luvisi, E. Nutricati, R. A. Accogli, E. Sabella and A. Miceli (2019). Phytochemical profiles and antioxidant activity of Salvia species from Southern Italy, Rec. Nat. Prod. 13, 205-215.
[15] N. Sarac and A. Ugur (2009). The in vitro antimicrobial activities of the essential oils of some Lamiaceae species from Turkey, J. Med. Food. 12, 902-907.
[16] V. Exarchou, L. Kanetis, Z. Charalambous, S. Apers, L. Pieters, V. Gekas and V. Goulas (2015). HPLCSPE- NMR characterization of major metabolites in Salvia fruticosa Mill. extract with antifungal potential: Relevance of carnosic acid, carnosol, and hispidulin, J. Agr. Food Chem. 63, 457-463.
[17] C. P. R. Xavier, C. F. Lima, M. Fernandes-Ferreira and C. Pereira-Wilson (2009). Salvia fruticosa, Salvia officinalis, and rosmarinic acid induce apoptosis and inhibit proliferation of human colorectal cell lines: The role in MAPK/ERK Pathway, Nutr. Cancer. 61, 564-571.
[18] S. Arabiyat, A. Al-Rabi'ee, H. Zalloum, M. Hudaib, M. Mohammad and Y. Bustanji (2016). Antilipolytic and hypotriglyceridemic effects of dietary Salvia triloba Lf (Lamiaceae) in experimental rats, Trop. J. Pharm. Res. 15, 723-728.
[19] M. Perfumi, N. Arnold and R. Tacconi (1991). Hypoglycemic activity of Salvia fruticosa Mill. from Cyprus, J. Ethnopharmacol. 34, 135-140.
[20] F. S. Senol, I. E. Orhan, S. A. Erdem, M. Kartal, B. Sener, Y. Kan, F. Celep, A. Kahraman and M. Dogan (2011). Evaluation of cholinesterase inhibitory and antioxidant activities of wild and cultivated samples of Sage (Salvia fruticosa) by activity-guided fractionation, J. Med. Food. 14, 1476-1483.
[21] S. U. Savelev, E. J. Okello and E. K. Perry (2004). Butyryl- and acetyl-cholinesterase inhibitory activities in essential oils of Salvia species and their constituents, Phytother. Res. 18, 315-324.
[22] V. Kasabri, F. U. Afifi, R. Abu-Dahab, N. Mhaidat, Y. K. Bustanji, I. M. Abaza and S. Mashallah (2014). In vitro modulation of metabolic syndrome enzymes and proliferation of obesity related-colorectal cancer cell line panel by Salvia species from Jordan, Rev. Roum. Chim. 59, 693-705.
[23] S. S. Erdogan, U. Karik and K. H. C. Baser (2011). The determination of total phenolics and flavonoid contents, and antioxidant activity of some sage populations of Salvia fruticosa Mill., Salvia pomifera Mill. and Salvia tomentosa Mill. in the Marmara region of Turkey, Planta Med. 77, 1319-1319.
[24] N. H. El-Sayed, T. I. Khalifa, M. T. Ibrahim and T. J. Mabry (2001). Constituents from Salvia triloba, Fitoterapia 72, 850-853.
[25] S. Duletić-Laušević, A. Alimpić Aradski, K. Šavikin, A. Knežević, M. Milutinović, T. Stević, J. Vukojević, S. Marković and P.D. Marin (2018). Composition and biological activities of Libyan Salvia fruticosa Mill. and S. lanigera Poir. extracts, S. Afr. J. Bot. 117, 101-109.
[26] I. Mathe, A. Mathe, J. Hohmann and G. Janicsak (2010). Volatile and some non-volatile chemical constituents of Mediterranean Salvia species beyond their native area, Isr. J. Plant Sci. 58, 273-277.
[27] N. Azcan, A. Ertan, B. Demirci and K. H. C. Baser (2004). Fatty acid composition of seed oils of twelve Salvia species growing in Turkey, Chem. Nat. Compd. 40, 218-221.
[28] M. M. Ozcan, G. Figueredo, J. C. Chalchat, P. Chalard, F. Al Juhaimi, K. Ghafoor and E. F. El Babiker (2015). Chemical constituents in essential oils of Salvia officinalis L. and Salvia fruticosa Mill., Z. Arznei- Gewurzpfla. 20, 181.
[29] M. S. Ali, A. K. Y. Dardass, S. Ahmad, M. Saleem, S. Firdous and V. U. Ahmad (2000). Two new diterpenoids from Salvia triloba, Fitoterapia 71, 347-352.
[30] G. Topcu, M. Ozturk, T. Kusman, A. A. Barla Demirkoz, U. Kolak and A. Ulubelen (2013). Terpenoids, essential oil composition and fatty acids profile, and biological activities of Anatolian Salvia fruticosa Mill., Turk. J. Chem. 37, 619-632.
[31] U. Karik, A. C. Saglam, M. Kurkcuoglu and K. H. C. Baser (2011). Compositions of the essential oils of Salvia fruticosa Mill. Populations in the Flora of Marmara Region, Planta Med. 77, 1302-1302.
[32] J. C. Chalchat, M. M. Ozcan, G. Figueredo (2011). The composition of essential oils of different parts of laurel, mountain tea, aage and ajowan, J. Food Biochem. 35, 484-499.
[33] I. Kocabas, M. Kaplan, M. Kurkcuoglu and K. H. C. Baser (2010). Effects of different organic manure applications on the essential oil components of Turkish sage (Salvia fruticosa Mill.), Asian J. Chem. 22, 1599-1605.
[34] I. E. Orhan, F. S. Senol, M. Z. Haznedaroglu, H. Koyu, S. A. Erdem, G. Yılmaz, M. Cicek, A. E. Yaprak, E. Ari and N. Kucukboyaci (2016). Neurobiological evaluation of thirty-one medicinal plant extracts using microtiter enzyme assays, Clin. Phytosci. 2, 1-12.
[35] R. Briggs, S. P. Kennelly and D. O'Neill (2016). Drug treatments in Alzheimer’s disease, Clin. Med. 16, 247-253.
[36] H. Mitsumoto (1997). Diagnosis and progression of ALS. Neurology 48(4 Suppl 4), 2S-8S.
[37] M.M. Mehndiratta, S. Pandey and T. Kuntzer (2014). Acetylcholinesterase inhibitor treatment for myasthenia gravis, Cochrane Datab.Syst. Rev.10, CD006986.
[38] J. Sirviö, J.O. Rinne, A. Valjakka, U.K. Rinne, P.J. Riekkinen, and L. Paljärvi (1989). Different forms of brain acetylcholinesterase and muscarinic binding in Parkinson's disease, J. Neurol. Sci. 90, 23-32.
[39] I. Erdogan Orhan (2012). Current concepts on selected plant secondary metabolites with promising inhibitory effects against enzymes linked to alzheimer's disease, Curr. Med. Chem. 19, 2252-2261.
[40] T. Thomsen and H. Kewitz (1990). Selective inhibition of human acetylcholinesterase by galanthamine in vitro and in vivo, Life Sci. 46, 1553-1558.
[41] B. Zhao, S. M. Moochhala and S.Y. Tham (2004). Biologically active components of Physostigma venenosum, J. Chromatogr.B 812, 183-192.
[42] X. Ma and D. R. Gang (2004). The Lycopodium alkaloids, Nat. Prod. Rep. 21, 752-772.
[43] A. Saklani and S. K. Kutty (2008). Plant-derived compounds in clinical trials, Drug Discov. Today, 13, 161-171.
[44] G. Topcu and T. Kusman (2014). Lamiaceae family plants as a potential anticholinesterase source in the treatment of Alzheimer’s disease, Bezmialem Science 1, 1-25.
[45] R. Tundis, M. R. Loizzo, M. Bonesi, F. Menichini, V. Mastellone, C. Colica and F. Menichini (2012). Comparative study on the antioxidant capacity and cholinesterase inhibitory activity of Citrus aurantifolia Swingle, C. aurantium L., and C. bergamia Risso and Poit. peel essential oil. J. Food Sci. 77, H40-H46.
[46] M. R. Loizzo, F. Menichini, F. Conforti, R. Tundis, M. Bonesi, A. M. Saab, G. A. Statti, B. d. Cindio, P. J. Houghton, F. Menichini and N. G. Frega (2009). Chemical analysis, antioxidant, antiinflammatory and anticholinesterase activities of Origanum ehrenbergii Boiss and Origanum syriacum L. essential oils, Food Chem. 117, 174-180.
[47] P. K. Mukherjee, V. Kumar, M. Mal and P. J. Houghton (2007). In vitro acetylcholinesterase inhibitory activity of the essential oil from Acorus calamus and its main constituents, Planta Med. 73, 283-285.
[48] N. S. Perry, P. J. Houghton, P. Jenner, A. Keith and E. K. Perry (2002). Salvia lavandulaefolia essential oil inhibits cholinesterase in vivo, Phytomedicine 9, 48-51.
[49] F. S. Senol, I. Orhan, F. Celep, A. Kahraman, M. Dogan, G. Yilmaz and B. Sener (2010). Survey of 55 Turkish Salvia taxa for their acetylcholinesterase inhibitory and antioxidant activities, Food Chem. 120, 34- 43.
[50] M. E. Duru, G. Tel, M. Öztürk and M. Harmandar (2012). Chemical composition, antioxidant and anticholinesterase activities of the essential oil of Salvia chrysophylla Staph., Rec. Nat. Prod. 6, 175-179.
[51] European Pharmacopoeia, Council of Europe, Strasbourg, France, 2005.
[52] G. Özek, F. Demirci, T. Özek, N. Tabanca, D. E. Wedge, S. I. Khan, K. H. C. Baser, A. Duran and E. Hamzaoglu (2010). Gas chromatographic–mass spectrometric analysis of volatiles obtained by four different techniques from Salvia rosifolia Sm., and evaluation for biological activity, J. Chromatogr. A 1217,741-748.
[53] D. Joulain, W. König and D. Hochmuth (2001). Library of MassFinder. Terpenoids and related constituents of essential oils, 2, 90.
[54] R. P. Adams (1997). Identification of essential oil components by Gas Chromatography/Mass Spectroscopy. J. Am. Soc. Mass Spectrom. 6, 671-672.
[55] NIST Chemistry WebBook, https://webbook.nist.gov/chemistry/, Last update to data:2018
[56] Wiley Registry, Mass Spectral Library, 11th Edition / NIST 2017, https://www.wiley.com
[57] K. H. C. Baser and F. Demirci (2007). in 'Chemistry of Essential Oils', Ed. R. F. Berger, Springer-Verlag, Berlin, Heidelberg.
[58] A. Adsersen, B. Gauguin, L. Gudiksen and A. K. Jäger (2006). Screening of plants used in Danish folk medicine to treat memory dysfunction for acetylcholinesterase inhibitory activity, J. Ethnopharmacol. 104, 418-422.
[59] R. Apak, K. Güçlü, M. Özyürek, B. Bektasoğlu and M. Bener (2008). Cupric ion reducing antioxidant capacity assay for food antioxidants: vitamins, polyphenolics, and flavonoids in food extracts, Advan. Protocol. Oxidat. Stress I, 163-193.
[60] W. Brand-Williams, M.-E. Cuvelier and C. Berset (1995). Use of a free radical method to evaluate antioxidant activity, LWT-Food Sci Technol. 28, 25-30.
[61] R. Zgheib, C. Yassine, S. Samar Azzi-Achkhouty and M. El Beyrouthy (2019). Investigation of essential oil chemical polymorphism of Salvia fruticosa naturally growing in Lebanon, J. Essent. Oil. Bearing Plants 22, 408-430.
[62] V. I. Babushok, P. J. Linstrom and I. G. Zenkevich (2011). Retention indices for frequently reported compounds of plant essential oils, J. Phys. Chem. Ref. Data 40(4), 043101. 61.
[63] D. E. Wedge, J. A. Klun, N. Tabanca, B. Demirci, T. Ozek, K. H. C. Baser, Z. Liu, S. Zhang, C. L. Cantrell and J. Zhang (2009). Bioactivity-guided fractionation and GC/MS fingerprinting of Angelica sinensis and Angelica archangelica root components for antifungal and mosquito deterrent activity, J. Agr. Food Chem. 57, 464-470.
[64] A. Gauvin, H. Ravaomanarivo and J. Smadja (2004). Comparative analysis by gas chromatography mass spectrometry of the essential oils from bark and leaves of Cedrelopsis grevei Baill, an aromatic and medicinal plant from Madagascar, J. Chromatogr. A, 1029, 279-282.
[65] A. Raal, H. Kaur, A. Orav, E. Arak, T. Kailas and M. Mueuerisepp (2011). Content and composition of essential oils in some Asteraceae species, P. Est. Acad. Sci. 60, 55.
[66] S. F. Hachicha, T. Skanji, S. Barrek, Z.G. Ghrabi and H. Zarrouk (2007). Composition of the essential oil of Teucrium ramosissimum Desf. (Lamiaceae) from Tunisia, Flavour Fragr. J. 22, 101-104.
[67] T. Kundakovic, N. Fokialakis, N. Kovacevic and I. Chinou (2007). Essential oil composition of Achillea lingulata and A. umbellata, Flavour Fragr. J. 22, 184-187.
[68] A. Gil, C. M. Van Baren, P.M.D.L. Lira and A.L. Bandoni (2007). Identification of the genotype from the content and composition of the essential oil of lemon verbena (Aloysia citriodora Palau), J. Agric. Food Chem. 55, 8664-8669.
[69] A. Bendiabdellah, M. El Amine Dib, N. Djabou, H. Allali, B. Tabti, A. Muselli and J. Costa (2012). Biological activities and volatile cinstituents of Daucus muricatus L. from Algeria, Chem. Centr. J. 6, 48, 1- 10.
[70] E.M. Suleimenov, G.A. Atazharova, B. Demirci, K.H.C. Baser and S.M. Adekenov (2003). Essential oil composition of Artemisia lercheana and A. sieversiana of Kazakhstan flora in recent problems of development of new medicines of natural origin, Proceedings of Symposium, St.Petersburg - Pushkin, 2003, 382-385.
[71] I.M. Hulley, G. Özek, N.J. Sadgrove, P. M. Tilney, T. Özek, K.H.C. Başer, and B. E. Van Wyk (2019). Essential oil composition of a medicinally important Cape species: Pentzia punctata (Asteraceae). S. Afr. J. Bot. 127, 208-212.
[72] K.C. Wong and F.Y. Lai (1996). Volatile constituents from the fruits of four Syzygium species grown in Malaysia, Flavour Fragr. J. 11, 61-66.
[73] K. Polatoğlu, F. Demirci, B. Demirci, N. Gören and K. H. C. Başer (2012). Essential oil composition and antimicrobial activities of Tanacetum chiliophyllum (Fisch. & Mey.) Schultz Bip. var. monocephalum Grierson from Turkey, Nat. Prod. Res. 6(2), 184-188.
[74] C. D. Frizzo, L. A. Serafini, E. Dellacassa, D. Lorenzo and P. Moyna (2001) Essential oil of Baccharis uncinella DC. from Southern Brazil, Flavour Fragr. J. 16, 286-288.
[75] M. Miyazawa and N. Tamura (2007). Components of the essential oil from sprouts of Polygonum hydropiper L. ('Benitade'), Flavour Fragr. J. 22, 188-190.
[76] H. Noorizadeh and A. Farmany (2010). Exploration of linear and nonlinear modeling techniques to predict of retention index of essential oils, J. Chin. Chem. Soc. 57,1268-1277.
[77] H. F. Sakhanokho, B. J. Sampson, N. Tabanca, D. E. Wedge, B. Demirci, K. H. C. Baser, U. R. Bernier, M. Tsikolia, N. M. Agramonte, J. J. Becnel, J. Chen, K. Rajasekaran and J.M. Spiers (2013). Chemical composition, antifungal and insecticidal activities of Hedychium essential oils, Molecules, 18(4), 4308-4327.
[78] L. V. Kosyukova and T. V. Khorguani (1989). Retention indices of diterpenes isolated from resins of coniferous trees, Zh. Anal. Khim. 44, 1309-1313.
[79] M. Sylvestre, A. Pichette, A. Longtin, F. Nagau and J. Legault (2006). Essential oil analysis and anticancer activity of leaf essential oil of Croton flavens L. from Guadeloupe, J. Ethnopharmacol. 103, 99-102.
[80] A. C. U. Lourens, D. Reddy, K. H. C. Baser, A. M. Viljoen and S. F. Van Vuuren (2004). In vitro biological activity and essential oil composition of four indigenous South African Helichrysum species, J. Ethnopharmacol. 95, 253-258.
[81] K. H. C. Baser, G. Özek, T. Özek, A. Duran and H. Duman (2006). Composition of the essential oils of Rhabdosciadium oligocarpum (Post ex Boiss.) Hedge et Lamond and Rhabdosciadium microcalycinum Hand.-Mazz., Flavour Fragr. J. 21, 650-655.
[82] H. Van Den Dool and P. D. Kratz (1963). A generalization of the retention index system including linear temperature programmed gas-liquid partition chromatography, J. Chromatogr. 11, 463-471.
[83] K. Polatoglu, F. Demirci, B. Demirci, N. Goren and K. H. C. Baser (2010). Antimicrobial activity and essential oil composition of a new T. argyrophyllum (C. Koch) Tvzel var. argyrophyllium chemotype, J. Oleo Sci. 59, 307-313.
[84] B. Sen Utsukarci, B. Gurdal, M. Bilgin, D. Satana, B. Demirci, N. Tan and A. Mat (2019). Biological activities of various extracts from Salvia cassia Sam. ex Rech. f. and chemical composition of its most active extract, Rec. Nat. Prod. 13, 24-36.
[85] F.Abak, G.Yildiz, A.Atamov and M. Kürkçüoğlu (2018). Composition of the essential oil of Salvia montbretii Benth. from Turkey, Rec. Nat. Prod. 12, 426-431.
[86] M.R. Tellez, I. A. Khan, B. T. Schaneberg, S. L. Crockett, A. M. Rimando and M.Kobaisy (2004). Steam distillation–solid-phase microextraction for the detection of Ephedra sinica in herbal preparations, J. Chromatogr. A 1025, 51-56.
[87] G. Özek, T. Özek, K.H.C. Baser, A. Duran, M. Sagiroglu and H. Duman (2006). Comparison of the essential oils of Prangos turcica A. Duran, M. Sagiroglu et H. Duman fruits obtained by different isolation techniques, J. Essent. Oil Res. 18, 511-514.
[88] T. Özek, G. Özek, K. Baser and A. Duran (2005). Comparison of the essential oils of three endemic Turkish Heracleum species obtained by different isolation techniques, J. Essent. Oil Res. 17, 605-610.
[89] M. Pohanka, M. Hrabinova, K. Kuca and J.-P. Simonato (2011). Assessment of acetylcholinesterase activity using indoxylacetate and comparison with the standard Ellman’s Method, Int. J. Mol. Sci. 12, 2631-2640.
[90] K. Mishra, H. Ojha and N. K. Chaudhury (2012). Estimation of antiradical properties of antioxidants using DPPH assay: A critical review and results, Food Chem. 130, 1036-1043.
[91] M. C. Foti, C. Daquino and C. Geraci (2004). Electron-transfer reaction of cinnamic acids and their methyl esters with the DPPH• radical in alcoholic solutions, J. Org. Chem. 69, 2309-2314.

APA	Süzgeç Selçuk S, Ozek T, Ozek G, Yur S, Göger F, Gurdal B, Gulsoy Toplan G, Mericli A, Baser K (2021). The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. , 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
Chicago	Süzgeç Selçuk Sevda,Ozek Temel,Ozek Gulmira,Yur Süleyman,Göger Fatih,Gurdal Bahar,Gulsoy Toplan Gizem,Mericli Ali Hikmet,Baser Kemal Husnu Can The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. (2021): 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
MLA	Süzgeç Selçuk Sevda,Ozek Temel,Ozek Gulmira,Yur Süleyman,Göger Fatih,Gurdal Bahar,Gulsoy Toplan Gizem,Mericli Ali Hikmet,Baser Kemal Husnu Can The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. , 2021, ss.10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
AMA	Süzgeç Selçuk S,Ozek T,Ozek G,Yur S,Göger F,Gurdal B,Gulsoy Toplan G,Mericli A,Baser K The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. . 2021; 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
Vancouver	Süzgeç Selçuk S,Ozek T,Ozek G,Yur S,Göger F,Gurdal B,Gulsoy Toplan G,Mericli A,Baser K The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. . 2021; 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
IEEE	Süzgeç Selçuk S,Ozek T,Ozek G,Yur S,Göger F,Gurdal B,Gulsoy Toplan G,Mericli A,Baser K "The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities." , ss.10 - 24, 2021. http://doi.org/10.25135/rnp.185.20.03.1579
ISNAD	Süzgeç Selçuk, Sevda vd. "The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities". (2021), 10-24. https://doi.org/http://doi.org/10.25135/rnp.185.20.03.1579

APA	Süzgeç Selçuk S, Ozek T, Ozek G, Yur S, Göger F, Gurdal B, Gulsoy Toplan G, Mericli A, Baser K (2021). The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. Records of Natural Products, 15(1), 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
Chicago	Süzgeç Selçuk Sevda,Ozek Temel,Ozek Gulmira,Yur Süleyman,Göger Fatih,Gurdal Bahar,Gulsoy Toplan Gizem,Mericli Ali Hikmet,Baser Kemal Husnu Can The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. Records of Natural Products 15, no.1 (2021): 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
MLA	Süzgeç Selçuk Sevda,Ozek Temel,Ozek Gulmira,Yur Süleyman,Göger Fatih,Gurdal Bahar,Gulsoy Toplan Gizem,Mericli Ali Hikmet,Baser Kemal Husnu Can The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. Records of Natural Products, vol.15, no.1, 2021, ss.10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
AMA	Süzgeç Selçuk S,Ozek T,Ozek G,Yur S,Göger F,Gurdal B,Gulsoy Toplan G,Mericli A,Baser K The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. Records of Natural Products. 2021; 15(1): 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
Vancouver	Süzgeç Selçuk S,Ozek T,Ozek G,Yur S,Göger F,Gurdal B,Gulsoy Toplan G,Mericli A,Baser K The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities. Records of Natural Products. 2021; 15(1): 10 - 24. http://doi.org/10.25135/rnp.185.20.03.1579
IEEE	Süzgeç Selçuk S,Ozek T,Ozek G,Yur S,Göger F,Gurdal B,Gulsoy Toplan G,Mericli A,Baser K "The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities." Records of Natural Products, 15, ss.10 - 24, 2021. http://doi.org/10.25135/rnp.185.20.03.1579
ISNAD	Süzgeç Selçuk, Sevda vd. "The Leaf and the Gall Volatiles of Salvia fruticosa Miller from Turkey: Chemical Composition and Biological Activities". Records of Natural Products 15/1 (2021), 10-24. https://doi.org/http://doi.org/10.25135/rnp.185.20.03.1579