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Determination of Total Antioxidant Capacities by Ferrous Thiocyanate Method in Leaf And Seed of Cherry Laurel (Prunus laurocerasus L)

Year 2018, , 109 - 114, 18.06.2018
https://doi.org/10.31466/kfbd.353623

Abstract

Prunus laurocerasus, also known as taflan or karayemiş, is commonly found in the Black Sea region. This study was
carried out to determine total antioxidant capacity of P. laurocerasus plant collected leaves and fruits from Ordu province
in August 2016. The collected samples were separated into leaves and fruit kernel, and dissolved in methanol and ethanol
solvents to obtain separate extracts. The total antioxidant capacity was measured spectrophotometrically at 12 h in extracts
prepared according to the ferrous thiocyanate method. The highest percent inhibition occurred at 84 hours for methanol
extracts. The percent inhibition value for the methanol extract of P. Laurocerasus was determined to be 66.97 and 67.10
for the leave and kernel, respectively. The ethanol extracts of leaves and seeds showed the highest percent inhibition at
48th hour, reaching 94.67 and 91.06. Percent inhibition values of the butylated hydroxy toluen (BHT) and trolox were
calculated as 39.85 and 43.81 in 48th hour. It was determined that the leaf and kernel of P. laurocerasus showed high
antioxidant activity compared to standard antioxidants. It was also found that the ethanol extract gave higher antioxidant
activity than the methanol extract. The kernel of the P. Laurocerasus has higher antioxidant capacity than the leaf.

References

  • Alasalvar, C., Al-Farsi, M., Shahidi, F., (2005). Compositional characteristics and antioxidant components of cherry laurel varieties and pekmez. J. Food Sci. 70 (1), S47–S52.
  • Ayaz, F.A., (2001). Changes in phenolic acids of cherry laurel (Laurocerasus officinalis ‘Oxygemmis’) fruit during maturation. Acta Biol. Cracov. Bot. 43, 23–26.
  • Colak, A., Özen, A., Dincer, B., Güner, S., Ayaz, F.A., (2005). Diphenolases from two cultivars of cherry laurel (Laurocerasus officinalis Roem.) fruits at an early stage of maturation. Food Chem. 90 (4), 801–807.
  • Demir, S., Turan, I., Demir, F., Ayazoglu Demir, E., & Aliyazicioglu, Y. (2017). Cytotoxic Effect of Laurocerasus officinalis Extract on Human Cancer Cell Lines. Marmara Pharmaceutical Journal 21: 121-126, 2017.
  • Erdemoglu, N., Küpeli, E., Yes¸ İlada, E., (2003). Anti-inflammatory and antinociceptive activity assessment of plants used as remedy in Turkish folk medicine. J. Ethnopharmacol. 89 (1), 123–129.
  • Gülçin Đ, Berashvili D, Gepdiremen A (2005). Antiradical and antioxidant activity of total anthocyanins from Perilla pankinensis Decne. J. Ethopharmacol. 101: 287-293. Karabegović, I. T., Stojičević, S. S., Veličković, D. T., Todorović, Z. B., Nikolić, N. Č., & Lazić, M. L. (2014). The effect of different extraction techniques on the composition and antioxidant activity of cherry laurel (Prunus laurocerasus) leaf and fruit extracts. Industrial Crops and Products, 54, 142-148.
  • Kolayli, S.,Kücük,M., Duran, C., Candan, F., Dinc¸ er, B., (2003). Chemical and antioxidant properties of Laurocerasus officinalis Roem. (cherry laurel) fruit grown in the Black Sea region. J. Agric. Food Chem. 51 (25), 7489–7494.
  • Kolayli S, Aliyazıcıoğlu R, Ulusoy E, Karaoğlu Ş (2008). Antioxidant and antimicrobial activities of selected Turkish honeys. Hacettepe J. Biol. Chem. 36(2): 163-172. Liyana-Pathirana C. M, Shahidi F, Alasalvar C (2006). Antioxidant activity of cherry laurel fruit (Laurocerasus officinalis Roem.) and its concentrated juice. Food Chem. 99: 121-128.
  • Pan Y., Zhang X., Wang H., Liang Y., Zhu J., Li H., Zhang Z., Wu Q., (2007). Antioxidant potential of ethanolic extract of Polygonum cuspidatum and application in peanut oil. Food Chem. 105(4), 1518-1524.
  • Sahan, Y., (2011). Effect of Prunus laurocerasus L.(cherry laurel)leaf extracts on growth of bread spoilage fungi. Bulg. J. Agric. Sci. 17 (1), 83–92. Tawaha K., Alalı F. Q., Gharaıbeh M., Mohammad M., El-Elımat T., (2007): “Antioxidant activity and total phenolic of selected Jordanian plant species.” Food Chemistry, 104, 1372-1378.
  • Türkoğlu M, Dündar C, Süleyman H., (2013, 29-31 Mart) Bitkisel İlaç Geliştirme Süreci: Prunus lauracerasus Ekstresinin Tip II Diyabete Karşı Etkinliği. Ilaç Kimyasi, Üretimi, Teknolojisi, Standardizasyonu Kongresi, Kimyagerler Dernegi, Antalya.

Taflan (Prunus laurocerasus L) Yaprağı ve Çekirdeğinin Ferrotiyosiyanat Metoduyla Total Antioksidan Kapasitesinin Belirlenmesi

Year 2018, , 109 - 114, 18.06.2018
https://doi.org/10.31466/kfbd.353623

Abstract

Taflan veya karayemiş olarak da bilinen Prunus laurocerasus Karadeniz bölgesinde yaygın olarak bulunmaktadır. Ordu
ilinden 2016 Ağustos ayında yaprakları ve meyveleri toplanan P. laurocerasus bitkisinin toplam antioksidan kapasitesini
belirlemek amacıyla bu çalışma yapılmıştır. Toplanan örnekler yaprak ve meyvenin çekirdeği olmak üzere ayrılmış,
metanol ve etanol çözücüleri içerisinde çözülerek ayrı ekstraktlar elde edilmiştir. Toplam antioksidan kapasitesi
ferrotiyosiyanat metoduna göre hazırlanan ekstraktlarda 12 saatte bir olmak üzere spektrofotometrik olarak ölçülmüştür.
En yüksek inhibisyon yüzdesi metanol ekstraktları için 84. saatte gerçekleşmiştir. P. laurocerasus metanol ekstraktının
yaprağı için yüzde inhibisyon değeri 66,97, çekirdeği için 67,10 olarak belirlenmiştir. Yaprak ve çekirdeklerinin etanol
ekstraktları ise 48. saatte en yüksek yüzde inhibisyon göstererek 94,67 ve 91,06 değerlerine ulaşmışlardır. Butilen hidroksi
toluene (BHT) ve troloksun yüzde inhibisyon değerleri 48. Saatte 39,85 ve 43,81 olarak hesaplanmıştır. P. laurocerasus
yaprağı ve çekirdeğinin standart antioksidanlara göre yüksek antioksidan aktivite gösterdiği tespit edilmiştir. Ayrıca
etanol ekstraktının da metanol ekstraktına göre daha yüksek antioksidan aktivite verdiği görülmüştür. P. laurocerasus
çekirdeğinin ise yaprağına göre daha yüksek antioksidan kapasiteye sahip olduğu söylenebilir.

References

  • Alasalvar, C., Al-Farsi, M., Shahidi, F., (2005). Compositional characteristics and antioxidant components of cherry laurel varieties and pekmez. J. Food Sci. 70 (1), S47–S52.
  • Ayaz, F.A., (2001). Changes in phenolic acids of cherry laurel (Laurocerasus officinalis ‘Oxygemmis’) fruit during maturation. Acta Biol. Cracov. Bot. 43, 23–26.
  • Colak, A., Özen, A., Dincer, B., Güner, S., Ayaz, F.A., (2005). Diphenolases from two cultivars of cherry laurel (Laurocerasus officinalis Roem.) fruits at an early stage of maturation. Food Chem. 90 (4), 801–807.
  • Demir, S., Turan, I., Demir, F., Ayazoglu Demir, E., & Aliyazicioglu, Y. (2017). Cytotoxic Effect of Laurocerasus officinalis Extract on Human Cancer Cell Lines. Marmara Pharmaceutical Journal 21: 121-126, 2017.
  • Erdemoglu, N., Küpeli, E., Yes¸ İlada, E., (2003). Anti-inflammatory and antinociceptive activity assessment of plants used as remedy in Turkish folk medicine. J. Ethnopharmacol. 89 (1), 123–129.
  • Gülçin Đ, Berashvili D, Gepdiremen A (2005). Antiradical and antioxidant activity of total anthocyanins from Perilla pankinensis Decne. J. Ethopharmacol. 101: 287-293. Karabegović, I. T., Stojičević, S. S., Veličković, D. T., Todorović, Z. B., Nikolić, N. Č., & Lazić, M. L. (2014). The effect of different extraction techniques on the composition and antioxidant activity of cherry laurel (Prunus laurocerasus) leaf and fruit extracts. Industrial Crops and Products, 54, 142-148.
  • Kolayli, S.,Kücük,M., Duran, C., Candan, F., Dinc¸ er, B., (2003). Chemical and antioxidant properties of Laurocerasus officinalis Roem. (cherry laurel) fruit grown in the Black Sea region. J. Agric. Food Chem. 51 (25), 7489–7494.
  • Kolayli S, Aliyazıcıoğlu R, Ulusoy E, Karaoğlu Ş (2008). Antioxidant and antimicrobial activities of selected Turkish honeys. Hacettepe J. Biol. Chem. 36(2): 163-172. Liyana-Pathirana C. M, Shahidi F, Alasalvar C (2006). Antioxidant activity of cherry laurel fruit (Laurocerasus officinalis Roem.) and its concentrated juice. Food Chem. 99: 121-128.
  • Pan Y., Zhang X., Wang H., Liang Y., Zhu J., Li H., Zhang Z., Wu Q., (2007). Antioxidant potential of ethanolic extract of Polygonum cuspidatum and application in peanut oil. Food Chem. 105(4), 1518-1524.
  • Sahan, Y., (2011). Effect of Prunus laurocerasus L.(cherry laurel)leaf extracts on growth of bread spoilage fungi. Bulg. J. Agric. Sci. 17 (1), 83–92. Tawaha K., Alalı F. Q., Gharaıbeh M., Mohammad M., El-Elımat T., (2007): “Antioxidant activity and total phenolic of selected Jordanian plant species.” Food Chemistry, 104, 1372-1378.
  • Türkoğlu M, Dündar C, Süleyman H., (2013, 29-31 Mart) Bitkisel İlaç Geliştirme Süreci: Prunus lauracerasus Ekstresinin Tip II Diyabete Karşı Etkinliği. Ilaç Kimyasi, Üretimi, Teknolojisi, Standardizasyonu Kongresi, Kimyagerler Dernegi, Antalya.
There are 11 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Articles
Authors

Ayşegül Çebi

Publication Date June 18, 2018
Published in Issue Year 2018

Cite

APA Çebi, A. (2018). Taflan (Prunus laurocerasus L) Yaprağı ve Çekirdeğinin Ferrotiyosiyanat Metoduyla Total Antioksidan Kapasitesinin Belirlenmesi. Karadeniz Fen Bilimleri Dergisi, 8(1), 109-114. https://doi.org/10.31466/kfbd.353623

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