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Journal of Essential Oil Bearing Plants Volume 20, 2017 - Issue 3
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Original Articles

Volatile Profiles, Antioxidant, and Antimicrobial Activities of Essential Oils and Extracts of Different Parts from Sarcopoterium spinosum (L.) Spach Growing Wild in Sinop (Turkey)

Hülya SipahiDepartment of Biology, Faculty of the Arts and Sciences, University of Sinop, Sinop, TurkeyCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-7925-2766
ORCID Icon,
Büsra KorkmazFaculty of Pharmacy, Karadeniz Technical University, 61080, Trabzon, Turkey
,
Cumhur AvsarDepartment of Biology, Faculty of the Arts and Sciences, University of Sinop, Sinop, Turkey
,
Seda FandakliFaculty of Pharmacy, Karadeniz Technical University, 61080, Trabzon, Turkey
&
Emire ElmasDepartment of Biology, Faculty of the Arts and Sciences, University of Sinop, Sinop, Turkey
Pages 688-700 | Received 23 Feb 2017, Accepted 10 Jun 2017, Published online: 11 Jul 2017

References

  • Elmas, E. and Kutbay, H.G. (2017). Biodiversity in different successional stages of Mediterranean enclaves distributed along Sinop Peninsula (Turkey), Plant Biosystems, Doi: 10.1080/11263504.2016.1271052.
  • Elmas, E. and Kutbay, H.G. (2015). Plant functional types in Mediterranean enclaves in Western Black Sea Region of Turkey. Turk. J. Bot. 39: 30–39. doi: 10.3906/bot-1402-45
  • Gargano, D., Fenu, G., Medagli, P., Sciandrello, S. and Bernardo, L. (2007). The status of Sarcopoterium spinosum (Rosaceae) at western periphery of its range: Ecological constrains lead to conservation concerns. Isr. J. Plant Sci. 55: 1–13. doi: 10.1560/IJPS.55.1.1
  • Smirin, P., Taler, D., Abitbol, G., Brutman-Barazani, T., Kerem, Z. and Sampson, S.R. (2010). Rosenzweig T. Sarcopoterium spinosum extract as an antidiabetic agent: in vitro and in vivo study. Enthnopharmacol. 129: 10–7. doi: 10.1016/j.jep.2010.02.021
  • Henkin, Z., Resenzweig, T. and Yaniv, Z. (2014). Sarcopoterium spinosum. Z. Yaniv, Dudai, N. (eds.) Medicinal and Aromatic Plants of the Middle-East, Medicinal and Aromatic Plants of the World 2. Doi 10.1007/978-94-017-9276-9_7. Spiringer Science-Business Media Dordrecht, pp. 151–163.
  • Reher, G., Reznicek, G. and Baumann, A. (1991). Triterpenoids from Sarcopoterium spinosum and Sanguisorba minor. Planta Med. 57(5): 506. doi: 10.1055/s-2006-960189
  • Reher, G., Slijepcevic, M. and Kraus, L. (1991). Hypoglycemic activity of triterpenes and tannins from the root bark of Sarcopoterium spinosum and two Sanguisorba species (S. minor and S. officinalis). Planta Med. 57(8): A57–A58. doi: 10.1055/s-2006-960318
  • Reher, G. and Budesinsky, M. (1992). Triterpenoids from plants of the sanguisorbeae. Phytochemistry. 31(11): 3909–3914. doi: 10.1016/S0031-9422(00)97552-6
  • Loizzo, M.R., Bonesi, M., Passalacqua, N.G., Saab, A., Menichini, F. and Tundis, R. (2013). Antiproliferative activities on renal, prostate and melanoma cancer cell lines of Sarcopoterium spinosum aerial parts and its major constituent tormentic acid. Anti-Cancer Agents Med. Chem. 13(5): 768–76. doi: 10.2174/1871520611313050011
  • Ali-Shtayeh, M.S., Yaghmour, R.M., Faidi, Y.R., Salem, K. and Al-Nuri, M.A. (1998). Antimicrobial activity of 20 plants used in folkloric medicine in the Palestinian area, J. Ethnopharmacol. 60: 265–271. doi: 10.1016/S0378-8741(97)00153-0
  • Ali-Shtayeh, M.S., Al-Assalý, A.A. and Jamous, R.M. (2013). Antimicrobial activity of Palestinian medicinal plants against acne-inducing bacteria. Afr. J. Microbiol. Res. 7(21): 2560–2573. doi: 10.5897/AJMR12.1875
  • Masadeh, M.M., Alkofahi, A.S., Tumah, H.N., Mhaidat, N.M. and Alzoubi, K.H (2013). Antibacterialactivity of some medicinal plantsgrown in Jordan. Pak. J. Pharm. Sci. 26(2): 267–270.
  • Trabaud, L. (1994). The effect of fire on nutrient losses and cycling in a Quercus coccifera garrigue (southern France). Oecologia. 99(3): 379–386. doi: 10.1007/BF00627752
  • Mooney, H.A. and Dunn, E.L. (1969). Convergent evolution of Mediterranean climate evergreens clerophyll shrubs. Evolution. 24: 292–303. doi: 10.1111/j.1558-5646.1970.tb01762.x
  • Vokou, D. and Margaris, N.S. (1982). Volatile oils as allelopathic agents. In: Aromatic Plants: Basic and Applied. Margaris, N., Koedam, A. and Vokou, D. (eds.) Martinus Nijhoff Publisher, London, pp. 59–72.
  • Davis, G.W., Richardson, D.M., Keeley, J.E. and Hoobs, R.J. (1996). Mediterranean type ecosystems: the influences of biodiversity on their functioning. In: Functional Roles of Biodiversity: A Global Perspective. Ed. Mooney, H.A., Cushman, J.H., Medina, E., Sala, O.H., Schuldze, E.D. (eds.) John Willey and Sons Ltd., New York, pp. 151–183.
  • Dudai, N., Poljakoff-Mayber, A., Mayer, A.M., Putievsky, E. and Lerner, H.R. (1999). Essential oils as allele chemicals and their potential use as bioherbicides. J. Chem. Ecol. 25(5): 1079–1089. doi: 10.1023/A:1020881825669
  • Zuzarte, M. and Salgueiro, L. (2015). Essential oil chemistry. Sousa, D. P. de. (ed.) Springer International Publishing Switzerland, p. 53.
  • Buchbauer, G. (2000). The detailed analysis of essential oils leads to theunderstanding of their properties. Perfum. Flavor. 25: 64–67.
  • Hudifa, L.K., Alnouri, A.S., Aburjai, T.A. and Hudaib, M.M. (2013). Chemical Composition of the Essential Oil from Roots of Sarcopoterium spinosum (L.) (Rosaceae) Grown in Syria. J. Essent. Oil-Bearing Plants. 16(3): 412–416. doi: 10.1080/0972060X.2013.813267
  • Davis, P.H. (1965–1985). Flora of Turkey and the East Aegean Islands vol.1–9. Edinburg: Edinburgh University Press.
  • Davis, P.H. (1988). Flora of Turkey and the East Aegean Islands vol.10. Edinburg: Edinburgh University Press.
  • Adams, R.P. (2000). Identification of volatile oil components by gas chromatography/mass spectroscopy. Ahmed, M.M. (eds.) Allured Publishing Corporation, Carol StreamIL, USA.
  • Bauer, A.W., Kirby, W.M., Sherris, J.C. and Truck, M. (1966). Antibiotic susceptibility testing by a standardized single disk method. Am. J. Clin. Pathol. 45: 493–496.
  • Blois, M.S. (1958). Antioxidant determinations by the use of a stable free radical. Nature. 181: 1199–1200. doi: 10.1038/1811199a0
  • Kumar, L.S., Prasad, K.S. and Revanasiddappa, H.B. (2011). Synthesis,characterization, antioxidant, antimicrobial, DNA binding and cleavage studies ofmononuclear Cu (II) and Co (II) complexes of 3-hydroxy-N’-(2-hydroxybenzylidene)-2-naphthohydrazide. Eur. J. Clin. Chem. Clin. Biochem. 2: 394–403.
  • Jassbi, A.R., Zamanizadehnajari, S. and Baldwin, I.T. (2010). Phytotoxic volatilesin the roots and shoots of Artemisia tridentataas detected by headspace solid-phasemicroextraction and gas chromatographic-mass spectrometry analysis. J. Chem. Ecol. 36(12): 1398–1407. doi: 10.1007/s10886-010-9885-0
  • Miller, K.C., Poole, T. and Pawloski, M.P. (1996). Classification of the botanicalorigin of cinnamon by solid-phase microextraction and gas chromatography. Chromatographia. 42: 639–646. doi: 10.1007/BF02267695
  • Zhang, Z. and Li, G. (2010). A review of advances and new developments in theanalysis of biological volatile organic compounds. Microchem. J. 95: 127–139. doi: 10.1016/j.microc.2009.12.017
  • Karami-Osboo, R., Miri, R. and Jassbi, A.R. (2015). Comparative study of the volatiles in the essential oils of Achilleawilhelmsii, A. vermicularisand A. eriophoraby hydrodistillation and head space-solid phase microextraction (HS-SPME) gas chromatography-mass spectroscopy (GC-MS) analyses. J. Essent. Oil-Bearing Plants. 18(6): 1433–1440. doi: 10.1080/0972060X.2014.958568
  • Tuney, Ð., Cadirci, B.H., Unal, D. and Sukatar, A. (2006). Antimicrobial activities of the extracts of marine algae from the coast of Urla (Izmir, Turkey). Turk. J. Biol. 30(3): 171–175.
  • Etcherla, M. And Rao, G.N. (2014). In vitro study of antimicrobial activity in marine algae Caulerpa taxifolia and Caulerpa racemosa (C. Agardh). Int. J. Appl. Biol. Pharm. Technol. 5(2): 57–62.
  • Lee, J.H., Cho, S., Paik, H.D., Choi, C.W., Nam, K.T., Hwang, S.G. and Kim,S.K. (2014). Investigation on anti bacterial and antioxidant activities, phenolic and flavonoid contents of some Thai edible plants as an alternative for antibiotics. Asian-Australas. J. Anim. Sci. 27(10): 1461–1468. doi: 10.5713/ajas.2013.13629
  • Kolsi, R.B.A., Frikha, D., Jribi, I., Hamza, A., Fekih, L. and Belgith, K. (2015). Screening of antibacterial and antifungical activity in marine macroalgae and magnoliophytea from the coast of Tunisia. Int. J. Pharm. Pharm. Sci. 7(3): 47–51.
  • Manilal, A., Sujith, S., Selvin, J., Shakir, C. and Kiran, G.S. (2009). Anti bacterial activity of Falkenbergia hillebrandii (Born) from the India coast against human pathogens. FYTON. 78: 161–166.
  • Rangaiah, G.S., Lakshmi, P.A. and Sruthikeerithia, K. (2010). The antimicrobialactivity of the crude extracts of Chlorophyceacan Seaweeds Ulva, Caulerpa and Spongomorpha spp. against clinical and phytopathogens. Drug Invent. Today. 2: 311–314.
  • Hawary, S.S., El Shabrawy, A.E.R., Ezzat, S.M. and El-Shibani, F.A. (2016). Evaluation of the phenolic and flavonoid contents, antimicrobial and cytotoxicActivities of some plants growing in Al Jabal Al-Akhdar in Libya. Int. J. Pharmacognosy and Phytochem. Res. 8(7): 1083–1087.
  • Sunguc, C. (2013). Encapsulation of Sarcopoterim spinosum extract in zeinparticle by using electrospray method. MsC Thesis, Ðzmir Institute of Technology.
  • Yumrutas, O. and Saygideger, S.D. (2012). Determination of antioxidant andantimutagenic activities of Phlomis armeniaca and Mentha pulegium. J. Appl. Pharm.Sci. 2(1): 36–40.
  • Maen, A. and Cock, I.E. (2015). Inhibitory activity of Australian culinary herbextracts against the bacterial triggers of selected auto immune diseases. Pharmacogn. Commun, 5(2): 131. doi: 10.5530/pc.2015.2.4
  • Ahmed, D., Khan, M.M. and Saeed, R. (2015). Comparative analysis of phenolics,flavonoids, and antioxidant and antibacterial potential of methanolic, hexanic andaqueous extracts from Adiantum caudatum leaves. Antioxidants. 4(2): 394–409. doi: 10.3390/antiox4020394
  • Sethi, S., Prakash, O. and Pant, A.K. (2016). Phytochemical analysis, antioxidant assay and antifungal activity of essential oil and various extracts of Alpinia malaccensis (Burm. f.) Roscoe leaves. Cogent Chem. 2(1): 1223781. doi: 10.1080/23312009.2016.1223781
  • Bektas, E., Daferera, D., Sokmen, M., Serdar, G., Erturk, M., Polissiou, M.G. and Sokmen, A. (2016). In vitro antimicrobial, antioxidant, and anti viral activities of the essential oil and various extracts from Thymus nummularis M. Bieb. Indian J. Tradit. Knowl. 15(3): 403–410.
  • Al-Mustafa, A.H. and Al-Thunibat, O.Y. (2008). Antioxidant activity of some Jordanian medicinal plants used traditionally for treatment of diabetes. Pak. J. Biol. Sci. 11(3): 351–358. doi: 10.3923/pjbs.2008.351.358

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