Browsing by Author "Ayaz F."

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Analysis of the essential oils of subgenus Caropodium from Turkey; Grammosciadium schischkinii (V.M.Vinogr. & Tamamsch.) V.M.Vinogr., G. haussknechtii Boiss., G. pterocarpum Boiss. and G. platycarpum Boiss. & Hausskn. ex Boiss.
(2017-03-04) Küçükboyacı N.; Demirci B.; Ayaz F.; Bani B.; Adıgüzel N.
The composition of the hydrodistilled essential oils obtained from aerial parts of Grammosciadium schischkinii (V.M.Vinogr. & Tamamsch.) V.M.Vinogr., G. haussknechtii Boiss., G. pterocarpum Boiss. and G. platycarpum Boiss. & Hausskn. ex Boiss. (Apiaceae) which belong to subgenus Caropodium, growing in Turkey, were simultaneously analyzed by GC and GC-MS. The analysis revealed fifty-seven constituents, accounting 84.3–99.5% of the oils. The essential oil composition of G. schischkinii and G. haussknechtii which are endemic taxa to Turkey, have herein demonstrated for the first time. Moreover, we firstly defined the chemical characterization of the essential oil obtained from G. platycarpum gathered from Turkey. Oil samples showed different chemical compositions with regard to species and locations. Linalool (88.5 and 94.2%) was the main component of the oil samples from G. platycarpum, while hexadecanoic acid (20.6%) was the major in the oil sample of G. haussknechtii. Caryophyllene oxide (45.9 and 20.7%) was defined as the principal constituent in the oil samples of G. schischkinii and G. pterocarpum, respectively. In addition, phytol (19.1%) was determined as the main component in the oil of G. haussknechtii and this compound was first determined in the highest amount among the essential oils of the genus Grammosciadium.
Composition of the essential oils of the subgenus Grammosciadium from Turkey; G. Confertum, G. cornutum, G. macrodon subsp. macrodon, G. macrodon subsp. nezaketae and G. daucoides
(2016-09-01) Küçükboyacı N.; Demirci B.; Ayaz F.; Bani B.; Adıgüzel N.
Essential oils obtained by hydrodistillation from the aerial parts and fruits of five taxa of genus Grammosciadium DC., belonging to subgenus Grammosciadium (G. confertum Hub.-Mor. & Lamond, G. cornutum (Nábělek) C.C.Towns., G. macrodon Boiss. subsp. macrodon, G. macrodon Boiss. subsp. nezaketae B.Bani and G. daucoides DC.), collected from different locations in Turkey, were simultaneously analyzed by GC and GC/MS systems. 124 components representing 71.1-99.8% of the total contents were identified in the oils. Oil samples from fruits and aerial parts of the plants showed different chemical profiles with regard to species. We have herein demonstrated that the chemical composition of essential oil samples from G. cornutum, G. macrodon subsp. macrodon, G. macrodon subsp. nezaketae (an endemic subspecies), and G. confertum (an endemic species) growing in Turkey was determined for the first time. Hexadecanoic acid (13.3-21.2% and 48.1-59.8%) was the main component of the samples of G. cornutum and G. confertum, respectively, while caryophyllene oxide (13.1-29.2%) was the major constituent in the samples of G. macrodon subsp. nezaketae and G. macrodon subsp. macrodon as well as γ-terpinene (61.9%) and carvacrol (68.9%) in G. daucoides samples. In addition, pentacosane can be considered a chemotaxonomic marker for the essential oil of G. macrodon subsp. macrodon.
Fatty acid methyl ester composition of some Turkish apiaceae seed oils: New sources for petroselinic acid
(2016-11-01) Küçükboyaci N.; Ayaz F.; Adigüzel N.; Bani B.; Gören A.C.
The seed oils of twenty-six species of Apiaceae belonging to the genera Bunium, Cnidium, Ferula, Ferulago, Heracleum, Hippomarathrum, Malabaila, Myrrhoides, Olymposciadium, Pimpinella, Prangos, Szovitsia, Trigonasciadium, Trinia and Zosima, collected in Turkey, were investigated for their oil content, and amount of petroselinic acid (PA), as well as for the composition of their fatty acid methyl esters (FAMEs) by GC-MS. Seed oil content ranged from 7.1% in Szovitsia callicarpa to 29.3% in Ferula haussknechtii. The results showed that the seed oils of the studied species contained high amounts of PA (1.2-72.2%), followed by significant amounts of linoleic (LA, 13.8-50.8%) and oleic (OA, 4.2-61.6%) acids. PA was found in all the analyzed species, except for Olymposciadium caespitosum, which belongs to a monotypic endemic genus of the family. According to data from our study, PA was found to be predominantly in the seed oils of Hippomarathrum cristatum (72.2%), Trinia glauca (64.9%) and Bunium microcarpum (59.7%) and, therefore these species might be considered as new sources of PA, and represent a potential oleochemical raw material. This is the first extensive study of the composition of Turkish Apiaceae species. The high amounts of PA may also have chemotaxonomic significance.
Phytotoxic, cytotoxic and insecticidal activities of chrysophthalmum dichotomum boiss. and Heldr.
(2018-07-01) Ayaz F.; Küçükboyacı N.; Bani B.; Şener B.; Choudhary M.I.
Background: Chrysophthalmum dichotomum Boiss. and Heldr. (Asteraceae) is an endemic herbaceous plant to Southern part of Turkey. Aim: To investigate in vitro phytotoxic, cytotoxic and insecticidal activities of C. dichotomum. Methods: The MeOH extract of C. dichotomum was fractionated through subsequent solvent extractions in increasing polarity with n-hexane, chloroform and n-butanol. The MeOH extract and its fractions were evaluated for their biological acitivities using in vitro screening bioassays such as cytotoxicity on brine shrimps, phytotoxicity against Lemna minor and insecticidal activity against Rhyzopertha dominica and Tribolium castaneum. Results: The n-hexane and chloroform fractions showed significant phytotoxic activity (100 % growth inhibition) at 1000 μg/ml against L. minor. The brine shrimp lethality test revealed that the chloroform and remaining water fractions of C. dichotomum have moderate and positive lethality with LD50 values of 169.48 and 46.26 µg/mL, respectively. In addition, the chloroform and n-butanol fractions had low and moderate insecticidal activity with 20 and 40 % of mortality against Tribolium castaneum, respectively. Conclusion: This study demonstrates that C. dichotomum consists of bioactive constituents responsible for phytotoxicity, cytotoxicity on brine shrimps and insecticidal activity.
Phytotoxicity, toxicity on brine shrimp and insecticidal effect of Chrysophthalmum gueneri Aytac & Anderb. Growing in Turkey
(2018-12-01) Ayaz F.; Küçükboyaci N.; Bani B.; Şener B.; Choudhary M.I.
Objectives: The aim of this study was to investigate the probable toxicity on brine shrimp, phytotoxicity, and insecticidal activity of Chrysophthalmum gueneri Aytac & Anderb. Materials and Methods: The MeOH (80%) extract obtained from the whole plant of C. gueneri was fractionated through subsequent solvent extractions in increasing polarity with n-hexane, chloroform, and n-butanol. The MeOH (80%) extract and all fractions of C. gueneri were evaluated for their biologic activities using in vitro screening bioassays such as brine shrimp lethality test and phytotoxicity against Lemna minor, as well as insecticidal activity against Rhyzopertha dominica and Tribolium castaneum. Results: The findings showed that the n-hexane and chloroform fractions of the plant had significant phytotoxic activities with 100% growth inhibition (GI) at 1000 μg/mL against L. minor. Moreover, the MeOH (80%) extract (53% GI) and n-butanol fraction (46.6% GI) of the plant had moderate phytotoxic activities at 1000 μg/mL. Otherwise, no samples had toxicity on the brine shrimps. In addition, the remaining water fraction had low insecticidal activity with 20% mortality against T. castaneum. Conclusion: Our results show that the n-hexane and chloroform fractions of C. gueneri had potential phytotoxic effects.