Research Article
BibTex RIS Cite

OXIDATIVE STRESS INDEX AND ANTIOXIDANT CAPACITY OF LEPISTA NUDA COLLECTED FROM GAZİANTEP/TURKEY

Year 2019, Volume: 37 Issue: 1, 1 - 5, 01.03.2019

Abstract

The objective of the present study was to determine antioxidant capacity and oxidative stress index of Lepista nuda (Bull.) Cooke mushrooms collected in Şahinbey (Gaziantep/Turkey) using novel research kits that could conduct high sensitive and reliable measurements with in vitro analysis methods. Its antioxidant activity was determined by DPPH method and TAS (total antioxidant status), TOS (total oxidant status) and OSI (oxidative stress index) values were determined using Rel Assay kits. Study findings determined that the TAS value was 3.102 mmol/L, the TOS value was 36.920 μmol/L and the OSI value was 1.190 for the mushroom. It was observed that the radical scavenging activity of DPPH increased in higher concentrations. It was concluded that L. nuda samples collected in regions with low TOS values could be used as better antioxidant sources.

References

  • [1]Toma F.M., Abdullah N.Q.F., (2013) Isolation and identification of fungi from spices and medicinal plants, Research Journal of Environmental and Earth Sciences 5(3), 131-138.
  • [2] Valverde M.E., Hernández-Pérez T., Paredes-López O., (2015) Edible mushrooms: improving human healthand promoting quality life, International journal of microbiology 17, http://dx.doi.org/10.1155/2015/376387.
  • [3] Mattila P., Suonpää K., Piironen V., (2000) Functional properties of edible mushrooms, J. Nutr. 16, 694-696. https://doi.org/10.1016/S0899-9007(00)00341-5.
  • [4] Sevindik M., Akgül H., Günal S., Dogan M., (2016) Determination of Mineral Content and Antimicrobial Activity of Natural and Cultural Forms of Pleurotus ostreatus, Kastamonu University Journal of Forestry Faculty 16(1), 153-156. http://dx.doi.org/10.17475/kujff.27130
  • [5] Oke F., Aslim B., (2011) Protective effect of two edible mushrooms against oxidative cell damage and their phenolic composition, Food chemistry 128(3), 613-619. https://doi.org/10.1016/j.foodchem.2011.03.036
  • [6] Zhang Y., Ni J., Tang F., Jiang L., Guo T., Pei K., Liang Y., (2017) Diversity of root-associated fungi of Vaccinium mandarinorum along a human disturbance gradient in subtropical forests, China. Journal of Plant Ecology 10(1), 56-66. https://doi.org/10.1093/jpe/rtw022.
  • [7] Vaz J.A., Barros L., Martins A., Morais J.S., Vasconcelos M., Ferreira I.C.F.R., (2010) Phenolic profile of seventeen Portuguese wild mushrooms, Food Science and Technology 44, 343-346. https://doi.org/10.1016/j.lwt.2010.06.029.
  • [8] Wani B.A., Bodha R.H., Wani A.H., (2010) Nutritional and medicinal importance of mushrooms, Journal of Medicinal Plants Research 4 (24), 2598-2604; https://doi.org/10.5897/JMPR09.565.
  • [9] Sudha G., Vadivukkarasi S., Shree R.B.I., (2012) Lakshmanan, P. Antioxidant activity of various extracts from an edible mushroom Pleurotus eous, Food Science and Biotechnology 21(3), 661-668, https://doi.org/10.1007/s10068-012-0086-1.
  • [10] Sun L., Bai X., Zhuang Y., (2012) Effect of different cooking methods on total phenolic contents and antioxidant activities of four Boletus mushrooms, J Food Sci Technol. 51(11), 3362-8.
  • [11] Sevindik M., Akgül H., Bal C., (2017) Determination of Oxidative Stress Status of Ompholatus olearius Gathered from Adana and Antalya Provinces in Turkey, Sakarya University Journal of Science doi: 10.16984/saufenbilder.09547.
  • [12] Breintenbach J., Kränzlin F., (1991) Fungi of Switzerland. Volume 3., Boletes and Agarics 1. Verlag Mykologia, Switzerland, 1-361
  • [13] Christensen M., Gulden, G., (2008) Lepista (Fr.) W. G. Sm. In Knudsen, H., & Vesterholt, J. (eds.). Funga nordica. Nordsvamp.
  • [14] Dähncke R.M., (2006) 1200 Pilze in Farbfotos. AT Verlag, Stuttgart.
  • [15] Roux P., (2006) Mille et un champignons. Sainte Sigolene, France.
  • [16] Erel O., (2004) A novel automated direct measurement method for total antioxidant capacity using a new generation, more stable ABTS radical cation, Clinical biochemistry 37(4), 277-285.
  • [17] Erel, O., (2005) A new automated colorimetric method for measuring total oxidant status, Clinical biochemistry 38(12), 1103-1111.
  • [18] Shimada K., Fujikawa K., Yahara K., Nakamura T., (1992) Antioxidative properties ofxanthan on the autoxidation of soybean oil in cyclodextrin emulsion, J. Agric.Food Chem. 40, 945–948.
  • [19] Akgül H., Nur A.D., Sevindik M., Doğan, M., (2016) Determination of some biological activities of Tricholoma terreum and Coprinus micaceus, Artvin Coruh University Journal of Forestry Faculty 17(2), 158-162. http://dx.doi.org/10.17474/acuofd.63466
  • [20] Sevindik M., Akgul, H., Akata, I., Alli, H., Selamoglu, Z., (2017). Fomitopsis pinicola in healthful dietary approach and their therapeutic potentials, Acta Alimentaria, 46(4), 464-469.
  • [21] Sevindik M., Akgül H., Akata I., Selamoglu Z., (2017) Geastrum pectinatum as an Alternative Antioxidant Source with some Biochemical Analysis, Medical Mycology: Open Access 3, 25.
  • [22] Cikcikoglu Yildirim N., Turkoglu S., Yildirim N., Kaplan Ince O., (2012) Antioxidant properties of wild edible mushroom Pleurotus eryngii collected from Tunceli province of Turkey, Digest Journal of Nanomaterials & Biostructures (DJNB) 7(4), 1647-1654.
  • [23] Avci E., Cagatay G., Avci G.A., Suicmez M., Cevher S.C., (2016) An Edible Mushroom With Medicinal Significance; Auricularia polytricha, Hittite Journal of Science & Engineering 3(2), 111-116.
  • [24] Akgül H., Sevindik M., Akata I., Altuntaş D., Bal C., Dogan, M., (2016) Determination of Heavy Metal Content and Oxidative Stress Status of Macrolepiota procera (Scop.) Singer. Mushroom, Süleyman Demirel University Journal of Natural and Applied Sciences 20(3), 504-508. http://dx.doi.org/10.19113/sdufbed.56964
  • [25] Ferreira I.C., Barros L., Abreu R., (2009) Antioxidants in wild mushrooms, Current Medicinal Chemistry 16(12), 1543-1560.
  • [26] Murcia A.M., Martinez T.M., Jimenez A.M., Vera A.M., Honrubia M., Parras P. (2002) Antioxidant activity of edible fungi (truffles and mushrooms): losses during industrial processing, J. Food Prot. 65 (10), 1614–1622.
  • [27] Mercan N., Duru M.E., Turkoglu A., Gezer K., Kivrak I., Turkoglu H., (2006) Antioxidant and antimicrobial properties of ethanolic extract from Lepista nuda (Bull.) Cooke, Annals of microbiology 56(4), 339-344.
  • [28] Elmastas M., Isildak O., Turkekul I., Temur N., (2007) Determination of antioxidant activity and antioxidant compounds in wild edible mushrooms, Journal of Food Composition and Analysis 20(3), 337-345.
  • [29] Barros L., Venturini B.A., Baptista P., Estevinho L.M., Ferreira, I.C., (2008) Chemical composition and biological properties of Portuguese wild mushrooms: a comprehensive study. Journal of agricultural and food chemistry 56(10), 3856-3862.
There are 29 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Celal Bal This is me 0000-0001-6856-3254

Mustafa Sevindik This is me 0000-0001-7223-2220

Hasan Akgul This is me 0000-0001-8514-9776

Zeliha Selamoglu This is me 0000-0001-9056-6435

Publication Date March 1, 2019
Submission Date April 17, 2018
Published in Issue Year 2019 Volume: 37 Issue: 1

Cite

Vancouver Bal C, Sevindik M, Akgul H, Selamoglu Z. OXIDATIVE STRESS INDEX AND ANTIOXIDANT CAPACITY OF LEPISTA NUDA COLLECTED FROM GAZİANTEP/TURKEY. SIGMA. 2019;37(1):1-5.

IMPORTANT NOTE: JOURNAL SUBMISSION LINK https://eds.yildiz.edu.tr/sigma/