Phenolic composition, total antioxidant, antiradical and antimicrobial potential of endemic Glaucium Alakirensis

Ayşen Özcandır; Falah Saleh Mohammed; Mustafa Sevindik; Candan Aykurt; Zeliha Selamoglu; Hasan Akgül

Research Article

Year 2024, Volume: 42 Issue: 1, 42 - 48, 27.02.2024

Ayşen Özcandır Falah Saleh Mohammed Mustafa Sevindik Candan Aykurt Zeliha Selamoglu Hasan Akgül

Abstract

References

REFERENCES
[1] Ekor M. The growing use of herbal medicines: issues relating to adverse reactions and challenges in monitoring safety. Front Pharmacol 2014;4:177. [CrossRef]
[2] Salehi B, Gültekin-Özgüven M, Kırkın C, Özçelik B, Morais-Braga MFB, Carneiro JNP, et al. Anacardium plants: chemical, nutritional composition and biotechnological applications. Biomolecules 2019;9:465. [CrossRef]
[3] Benzie IF, Wachtel-Galor S, editors. Herbal medicine: biomolecular and clinical aspects. CRC Press; 2011. [CrossRef]
[4] Selamoglu Z, Dusgun C, Akgul H, Gulhan MF. In-vitro antioxidant activities of the ethanolic extracts of some contained-allantoin plants. Iran J Pharm Res 2017;16:92.
[5] Efferth T, Greten HJ. The European directive on traditional herbal medicinal products: friend or foe for plant-based therapies? Chin J Integr Med. 2012;10(4):357361. [CrossRef]
[6] Mohammed FS, Pehlivan M, Sevindik E, Akgul H, Sevindik M, Bozgeyik I, Yumrutas O. Pharmacological properties of edible Asparagus acutifolius and Asparagus officinalis collected from North Iraq and Turkey (Hatay). Acta Aliment 2021;50:136143. [CrossRef]
[7] Levitsky DO, Dembitsky VM. Anti-breast cancer agents derived from plants. Nat Prod Bioprospect 2015;5:116. [CrossRef]
[8] Mohammed FS, Karakaş M, Akgül H, Sevindik M. Medicinal properties of Allium calocephalum collected from Gara Mountain (Iraq). Fresen Environ Bull 2019;28:74197426.
[9] Sharifi-Rad J, Hoseini-Alfatemi SM, Sharifi-Rad S, Setzer WN. Chemical composition, antifungal and antibacterial activities of essential oil from Lallemantia royleana (Benth. in Wall.) Benth. J Food Saf 2015;35:1925. [CrossRef]
[10] Orhan DD, Ozcelik B, Hosbas S, Vural M. Assessment of antioxidant, antibacterial, antimycobacterial, and antifungal activities of some plants used as folk remedies in Turkey against dermatophytes and yeast-like fungi. Turk J Biol 2012;36:672686. [CrossRef]
[11] Mohammed FS, Günal S, Pehlivan M, Doğan M, Sevindik M, Akgul H. Phenolic content, antioxidant and antimicrobial potential of endemic Ferulago platycarpa. Gazi Univ J Sci 2020;33:670677. [CrossRef]
[12] Salehi B, Selamoglu Z, Sevindik M, Fahmy NM, Al-Sayed E, El-Shazly M, et al. Achillea spp.: A comprehensive review on its ethnobotany, phytochemistry, phytopharmacology and industrial applications. Cell Mol Biol 2020;66:78103. [CrossRef]
[13] Mahima AR, Deb R, Latheef SK, Samad HA, Tiwari R, et al. Immunomodulatory and therapeutic potentials of herbal, traditional/indigenous and ethnoveterinary medicines. Pak J Biol Sci 2012;15:754774. [CrossRef]
[14] Kadereit JW. Papaveraceae. In: Kubitzki K, editor. The families and genera of vascular plants. Springer-Verlag; 1993. p. 494–506. [CrossRef]
[15] Kiger RW. Glaucium Miller. In: Wilson AJG, editor. Flora of Australia, vol. 2. ABRS/CSIRO Publishing; 2007. p. 387–389.
[16] Mory B. Beitrage Zur Kenntnis der Sippenstruktur der Gattung Glaucium Miller (Papaveraceae). Feddes Repertorium 1979;89:499594. [CrossRef]
[17] Arslan S. Glaucium Mill. In: Guner A, Aslan S, Ekim T, Vural M, Babaç MT, editors. Türkiye Bitkileri Listesi (Damarlı Bitkiler). İstanbul Nezahat Gökyiğit Botanik Bahçesi Yayınları; 2012. p. 663–664. [Turkish]
[18] Yıldırımlı S. Türkiye’nin jipizçin bitki çeşitliliği cenneti: Kepen, Sivrihisar, Eskişehir, 13 yeni üye. Türkiye. Ot Sistematik Bot Derg 1991;19:34–38.
[19] Yıldız K, Mungan F, Batır MB, Kılıç M, Kuh M. Revision on Glaucium Mill. in Turkey. Celal Bayar University Coordination of Scientific Research Projects, Project Number: 2013-18; 2013. p. 77.
[20] Aykurt C, Yildiz K, Özçandır A, Mungan F, Deniz IG. Glaucium alakirensis (Papaveraceae), a new species from Southern Anatolia, Turkey. Phytotaxa. 2017;295:255262. [CrossRef]
[21] Caponio F, Alloggio V, Gomes T. Phenolic compounds of virgin olive oil: influence of paste preparation techniques. Food Chem 1999;64:203209. [CrossRef]
[22] Shimada K, Fujikawa K, Yahara K, Nakamura T. Antioxidative properties of xanthan on the autoxidation of soybean oil in cyclodextrin emulsion. J Agric Food Chem 1992;40:945948. [CrossRef]
[23] Hindler J, Hochstein L, Howell A. Preparation of routine media and reagents used in antimicrobial susceptibility testing. Part 1. McFarland standards. In: Isenberg HD, editor. Clinical microbiology procedures handbook, vol. 1. American Society for Microbiology; 1992. p. 5.19.15.19.6.
[24] Clinical and Laboratory Standards Institute. Methods for Dilution Antimicrobial Susceptibility Tests for Bacteria That Grow Aerobically; Approved Standard-Seventh Edition. CLSI Document M7-A7. Clinical and Laboratory Standards Institute; 2003.
[25] Clinical and Laboratory Standards Institute. Reference Method for Broth Dilution Antifungal Susceptibility Testing of Yeasts; Approved Standard-Second Edition. NCCLS document M27- A2. Clinical and Laboratory Standards Institute; 2004.
[26] Erel O. A novel automated direct measurement method for total antioxidant capacity using a new generation, more stable ABTS radical cation. Clin Biochem 2004;37:277285. [CrossRef]
[27] Erel O. A new automated colorimetric method for measuring total oxidant status. Clin Biochem 2005;38:11031111. [CrossRef]
[28] Sevindik M. Antioxidant and antimicrobial capacity of Lactifluus rugatus and its antiproliferative activity on A549 cells. Indian J Tradit Know 2020;19:423427. [CrossRef]
[29] Dai J, Mumper RJ. Plant phenolics: extraction, analysis and their antioxidant and anticancer properties. Molecules 2010;15:73137352. [CrossRef]
[30] Salehi B, Gültekin-Özgüven M, Kirkin C, Özçelik B, Morais-Braga MFB, Carneiro JNP, et al. Antioxidant, antimicrobial, and anticancer effects of Anacardium plants: an ethnopharmacological perspective. Front Endocrinol 2020;11:295. [CrossRef]
[31] Angelica GC, Candida AL, Kassuya II, Joao BC, Petrovick PR. Anti-inflammatory, antiallodynic effects and quantitative analysis of gallic acid in spray dried powders from Phyllanthus niruri leaves, stems, roots and whole plant. Rev Bras Farmacogn 2013;23:124131. [CrossRef]
[32] Borges A, Ferreira C, Saavedra MJ, Simões M. Antibacterial activity and mode of action of ferulic and gallic acids against pathogenic bacteria. Microb Drug Resist 2013;19:256265. [CrossRef]
[33] Chhillar R, Dhingra D. Antidepressant-like activity of gallic acid in mice subjected to unpredictable chronic mild stress. Fundam Clin Pharmacol 2013;27:409418. [CrossRef]
[34] Griffith R, Chanphen R, Leach SP, Keller PA. New anti-malarial compounds from database searching. Bioorg Med Chem Lett 2002;12:539542. [CrossRef]
[35] Guan HH, Ming HH, Chuan SC, Shyh SH, Pei HSH, Ming TY, et al. Analgesic and anti-inflammatory activities of aqueous extracts of Fructus Ligustri Lucidi. J Food Drug Anal 2012;20:617627.
[36] Kroes BH, van den Berg AJ, van Ufford HCQ, van Dijk H, Labadie RP. Anti-inflammatory activity of gallic acid. Planta Med 1992;58:499504. [CrossRef]
[37] Nayeem N, Asdaq SMB, Salem H, Ahel-Alfqy S. Gallic acid: a promising lead molecule for drug development. J Appl Pharm Sci 2016;8:213. [CrossRef]
[38] Prasad CN, Anjana T, Banerji A, Gopalakrishnapillai A. Gallic acid induces GLUT4 translocation and glucose uptake activity in 3T3-L1 cells. FEBS Lett 2010;584:531536. [CrossRef]
[39] Roberto DG, Remigio LS, Elias OS, Hector TA. Comparative antibacterial effect of gallic acid and catechin against Helicobacter pylori. LWT - Food Sci Tech 2013;54:331335. [CrossRef]
[40] Zhao M, Wang H, Yang B, Tao H. Identification of cyclodextrin inclusion complex of chlorogenic acid and its antimicrobial activity. Food Chem 2010;120:113811342. [CrossRef]
[41] Maalik A, Bukhari SM, Zaidi A, Shah KH, Khan FA. Chlorogenic acid: a pharmacologically potent molecule. Acta Pol Pharm 2016;73:851854.
[42] Cushnie TT, Lamb AJ. Antimicrobial activity of flavonoids. Int J Antimicrob Agents 2005;26:343356. [CrossRef]
[43] Alrawaiq NS, Abdullah A. A review of flavonoid quercetin: metabolism, bioactivity and antioxidant properties. Int J PharmTech Res 2014;6:933941.
[44] Pushp P, Sharma N, Joseph GS, Singh RP. Antioxidant activity and detection of (−) epicatechin in the methanolic extract of stem of Tinospora cordifolia. J Food Sci Tech 2013;50:567572. [CrossRef]
[45] Duangyod T, Palanuvej C, Ruangrungsi N. Pharmacognostic specifications and quantification of (+)-catechin and (-)-epicatechin in Pentace burmanica stem bark. Pharma Res 2014;6:251. [CrossRef]
[46] Shay J, Elbaz HA, Lee I, Zielske SP, Malek MH, Hüttemann M. Molecular mechanisms and therapeutic effects of (−)-epicatechin and other polyphenols in cancer, inflammation, diabetes, and neurodegeneration. Oxid Med Cell Longev 2015;2015:181260. [CrossRef]
[47] Manuja R, Sachdeva S, Jain A, Chaudhary J. A comprehensive review on biological activities of p-hydroxy benzoic acid and its derivatives. Int J Pharm Sci Rev Res 2013;22:109115.
[48] Sulaiman M, Tijani HI, Abubakar BM, Haruna S, Hindatu Y, Mohammed JN, Idris A. An overview of natural plant antioxidants: analysis and evaluation. Adv Biochem 2013;1:6472. [CrossRef]
[49] Mohammed FS, Akgul H, Sevindik M, Khaled BMT. Phenolic content and biological activities of Rhus coriaria var. zebaria. Fresen Environ Bull 2018;27:56945702.
[50] Mohammed FS, Günal S, Şabik AE, Akgul H, Sevindik M. Antioxidant and antimicrobial activity of Scorzonera papposa collected from Iraq and Turkey. Kahramanmaraş Sütçü İmam Univ Doğa Bilim Derg 2020;23:11141118. [CrossRef]
[51] Ou B, Huang D, Hampsch-Woodill M, Flanagan JA, Deemer EK. Analysis of antioxidant activities of common vegetables employing oxygen radical absorbance capacity (ORAC) and ferric reducing antioxidant power (FRAP) assays: a comparative study. J Agric Food Chem 2002;50:31223128. [CrossRef]
[52] Souri R, Amin G, Dehmobed-Sharifabadi A, Nazifi A, Farsam H. Antioxidative activity of sixty plants from Iran. Iran J Pharm Res 2010;3:5559.
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Phenolic composition, total antioxidant, antiradical and antimicrobial potential of endemic Glaucium Alakirensis

Year 2024, Volume: 42 Issue: 1, 42 - 48, 27.02.2024

Ayşen Özcandır Falah Saleh Mohammed Mustafa Sevindik Candan Aykurt Zeliha Selamoglu Hasan Akgül

Abstract

Plants have been used by many communities for different purposes such as food, shelter, medicine. The present study aimed to determine phenolic content and biological potential of Glaucium alakirensis Aykurt, K. Yıldız & A. Özçandır, which is endemic to Antalya (Turkey). Phenolic composition of the plant was analyzed with HPLC device, while antiradical activity was determined by DPPH method. Antimicrobial tests were conducted with agar dilution method against standard bacteria and fungus strains. Total antioxidant and oxidant status were determined using Rel Assay kits. As a result of HPLC analysis, the presence of catechin, chlorogenic acid, hydroxybenzoic acid, quercetin and gallic acid was determined. Plant ex-tracts were effective against microorganisms at concentrations of 50-200 μg/mL. It was de-termined that the plant has high antiradical activity. It is also thought to be used as a natural source for relieving oxidative stress.

Keywords

Antimicrobial, Antiradical, Antioxidant, Medicinal Plants, Phenolic

References

REFERENCES
[1] Ekor M. The growing use of herbal medicines: issues relating to adverse reactions and challenges in monitoring safety. Front Pharmacol 2014;4:177. [CrossRef]
[2] Salehi B, Gültekin-Özgüven M, Kırkın C, Özçelik B, Morais-Braga MFB, Carneiro JNP, et al. Anacardium plants: chemical, nutritional composition and biotechnological applications. Biomolecules 2019;9:465. [CrossRef]
[3] Benzie IF, Wachtel-Galor S, editors. Herbal medicine: biomolecular and clinical aspects. CRC Press; 2011. [CrossRef]
[4] Selamoglu Z, Dusgun C, Akgul H, Gulhan MF. In-vitro antioxidant activities of the ethanolic extracts of some contained-allantoin plants. Iran J Pharm Res 2017;16:92.
[5] Efferth T, Greten HJ. The European directive on traditional herbal medicinal products: friend or foe for plant-based therapies? Chin J Integr Med. 2012;10(4):357361. [CrossRef]
[6] Mohammed FS, Pehlivan M, Sevindik E, Akgul H, Sevindik M, Bozgeyik I, Yumrutas O. Pharmacological properties of edible Asparagus acutifolius and Asparagus officinalis collected from North Iraq and Turkey (Hatay). Acta Aliment 2021;50:136143. [CrossRef]
[7] Levitsky DO, Dembitsky VM. Anti-breast cancer agents derived from plants. Nat Prod Bioprospect 2015;5:116. [CrossRef]
[8] Mohammed FS, Karakaş M, Akgül H, Sevindik M. Medicinal properties of Allium calocephalum collected from Gara Mountain (Iraq). Fresen Environ Bull 2019;28:74197426.
[9] Sharifi-Rad J, Hoseini-Alfatemi SM, Sharifi-Rad S, Setzer WN. Chemical composition, antifungal and antibacterial activities of essential oil from Lallemantia royleana (Benth. in Wall.) Benth. J Food Saf 2015;35:1925. [CrossRef]
[10] Orhan DD, Ozcelik B, Hosbas S, Vural M. Assessment of antioxidant, antibacterial, antimycobacterial, and antifungal activities of some plants used as folk remedies in Turkey against dermatophytes and yeast-like fungi. Turk J Biol 2012;36:672686. [CrossRef]
[11] Mohammed FS, Günal S, Pehlivan M, Doğan M, Sevindik M, Akgul H. Phenolic content, antioxidant and antimicrobial potential of endemic Ferulago platycarpa. Gazi Univ J Sci 2020;33:670677. [CrossRef]
[12] Salehi B, Selamoglu Z, Sevindik M, Fahmy NM, Al-Sayed E, El-Shazly M, et al. Achillea spp.: A comprehensive review on its ethnobotany, phytochemistry, phytopharmacology and industrial applications. Cell Mol Biol 2020;66:78103. [CrossRef]
[13] Mahima AR, Deb R, Latheef SK, Samad HA, Tiwari R, et al. Immunomodulatory and therapeutic potentials of herbal, traditional/indigenous and ethnoveterinary medicines. Pak J Biol Sci 2012;15:754774. [CrossRef]
[14] Kadereit JW. Papaveraceae. In: Kubitzki K, editor. The families and genera of vascular plants. Springer-Verlag; 1993. p. 494–506. [CrossRef]
[15] Kiger RW. Glaucium Miller. In: Wilson AJG, editor. Flora of Australia, vol. 2. ABRS/CSIRO Publishing; 2007. p. 387–389.
[16] Mory B. Beitrage Zur Kenntnis der Sippenstruktur der Gattung Glaucium Miller (Papaveraceae). Feddes Repertorium 1979;89:499594. [CrossRef]
[17] Arslan S. Glaucium Mill. In: Guner A, Aslan S, Ekim T, Vural M, Babaç MT, editors. Türkiye Bitkileri Listesi (Damarlı Bitkiler). İstanbul Nezahat Gökyiğit Botanik Bahçesi Yayınları; 2012. p. 663–664. [Turkish]
[18] Yıldırımlı S. Türkiye’nin jipizçin bitki çeşitliliği cenneti: Kepen, Sivrihisar, Eskişehir, 13 yeni üye. Türkiye. Ot Sistematik Bot Derg 1991;19:34–38.
[19] Yıldız K, Mungan F, Batır MB, Kılıç M, Kuh M. Revision on Glaucium Mill. in Turkey. Celal Bayar University Coordination of Scientific Research Projects, Project Number: 2013-18; 2013. p. 77.
[20] Aykurt C, Yildiz K, Özçandır A, Mungan F, Deniz IG. Glaucium alakirensis (Papaveraceae), a new species from Southern Anatolia, Turkey. Phytotaxa. 2017;295:255262. [CrossRef]
[21] Caponio F, Alloggio V, Gomes T. Phenolic compounds of virgin olive oil: influence of paste preparation techniques. Food Chem 1999;64:203209. [CrossRef]
[22] Shimada K, Fujikawa K, Yahara K, Nakamura T. Antioxidative properties of xanthan on the autoxidation of soybean oil in cyclodextrin emulsion. J Agric Food Chem 1992;40:945948. [CrossRef]
[23] Hindler J, Hochstein L, Howell A. Preparation of routine media and reagents used in antimicrobial susceptibility testing. Part 1. McFarland standards. In: Isenberg HD, editor. Clinical microbiology procedures handbook, vol. 1. American Society for Microbiology; 1992. p. 5.19.15.19.6.
[24] Clinical and Laboratory Standards Institute. Methods for Dilution Antimicrobial Susceptibility Tests for Bacteria That Grow Aerobically; Approved Standard-Seventh Edition. CLSI Document M7-A7. Clinical and Laboratory Standards Institute; 2003.
[25] Clinical and Laboratory Standards Institute. Reference Method for Broth Dilution Antifungal Susceptibility Testing of Yeasts; Approved Standard-Second Edition. NCCLS document M27- A2. Clinical and Laboratory Standards Institute; 2004.
[26] Erel O. A novel automated direct measurement method for total antioxidant capacity using a new generation, more stable ABTS radical cation. Clin Biochem 2004;37:277285. [CrossRef]
[27] Erel O. A new automated colorimetric method for measuring total oxidant status. Clin Biochem 2005;38:11031111. [CrossRef]
[28] Sevindik M. Antioxidant and antimicrobial capacity of Lactifluus rugatus and its antiproliferative activity on A549 cells. Indian J Tradit Know 2020;19:423427. [CrossRef]
[29] Dai J, Mumper RJ. Plant phenolics: extraction, analysis and their antioxidant and anticancer properties. Molecules 2010;15:73137352. [CrossRef]
[30] Salehi B, Gültekin-Özgüven M, Kirkin C, Özçelik B, Morais-Braga MFB, Carneiro JNP, et al. Antioxidant, antimicrobial, and anticancer effects of Anacardium plants: an ethnopharmacological perspective. Front Endocrinol 2020;11:295. [CrossRef]
[31] Angelica GC, Candida AL, Kassuya II, Joao BC, Petrovick PR. Anti-inflammatory, antiallodynic effects and quantitative analysis of gallic acid in spray dried powders from Phyllanthus niruri leaves, stems, roots and whole plant. Rev Bras Farmacogn 2013;23:124131. [CrossRef]
[32] Borges A, Ferreira C, Saavedra MJ, Simões M. Antibacterial activity and mode of action of ferulic and gallic acids against pathogenic bacteria. Microb Drug Resist 2013;19:256265. [CrossRef]
[33] Chhillar R, Dhingra D. Antidepressant-like activity of gallic acid in mice subjected to unpredictable chronic mild stress. Fundam Clin Pharmacol 2013;27:409418. [CrossRef]
[34] Griffith R, Chanphen R, Leach SP, Keller PA. New anti-malarial compounds from database searching. Bioorg Med Chem Lett 2002;12:539542. [CrossRef]
[35] Guan HH, Ming HH, Chuan SC, Shyh SH, Pei HSH, Ming TY, et al. Analgesic and anti-inflammatory activities of aqueous extracts of Fructus Ligustri Lucidi. J Food Drug Anal 2012;20:617627.
[36] Kroes BH, van den Berg AJ, van Ufford HCQ, van Dijk H, Labadie RP. Anti-inflammatory activity of gallic acid. Planta Med 1992;58:499504. [CrossRef]
[37] Nayeem N, Asdaq SMB, Salem H, Ahel-Alfqy S. Gallic acid: a promising lead molecule for drug development. J Appl Pharm Sci 2016;8:213. [CrossRef]
[38] Prasad CN, Anjana T, Banerji A, Gopalakrishnapillai A. Gallic acid induces GLUT4 translocation and glucose uptake activity in 3T3-L1 cells. FEBS Lett 2010;584:531536. [CrossRef]
[39] Roberto DG, Remigio LS, Elias OS, Hector TA. Comparative antibacterial effect of gallic acid and catechin against Helicobacter pylori. LWT - Food Sci Tech 2013;54:331335. [CrossRef]
[40] Zhao M, Wang H, Yang B, Tao H. Identification of cyclodextrin inclusion complex of chlorogenic acid and its antimicrobial activity. Food Chem 2010;120:113811342. [CrossRef]
[41] Maalik A, Bukhari SM, Zaidi A, Shah KH, Khan FA. Chlorogenic acid: a pharmacologically potent molecule. Acta Pol Pharm 2016;73:851854.
[42] Cushnie TT, Lamb AJ. Antimicrobial activity of flavonoids. Int J Antimicrob Agents 2005;26:343356. [CrossRef]
[43] Alrawaiq NS, Abdullah A. A review of flavonoid quercetin: metabolism, bioactivity and antioxidant properties. Int J PharmTech Res 2014;6:933941.
[44] Pushp P, Sharma N, Joseph GS, Singh RP. Antioxidant activity and detection of (−) epicatechin in the methanolic extract of stem of Tinospora cordifolia. J Food Sci Tech 2013;50:567572. [CrossRef]
[45] Duangyod T, Palanuvej C, Ruangrungsi N. Pharmacognostic specifications and quantification of (+)-catechin and (-)-epicatechin in Pentace burmanica stem bark. Pharma Res 2014;6:251. [CrossRef]
[46] Shay J, Elbaz HA, Lee I, Zielske SP, Malek MH, Hüttemann M. Molecular mechanisms and therapeutic effects of (−)-epicatechin and other polyphenols in cancer, inflammation, diabetes, and neurodegeneration. Oxid Med Cell Longev 2015;2015:181260. [CrossRef]
[47] Manuja R, Sachdeva S, Jain A, Chaudhary J. A comprehensive review on biological activities of p-hydroxy benzoic acid and its derivatives. Int J Pharm Sci Rev Res 2013;22:109115.
[48] Sulaiman M, Tijani HI, Abubakar BM, Haruna S, Hindatu Y, Mohammed JN, Idris A. An overview of natural plant antioxidants: analysis and evaluation. Adv Biochem 2013;1:6472. [CrossRef]
[49] Mohammed FS, Akgul H, Sevindik M, Khaled BMT. Phenolic content and biological activities of Rhus coriaria var. zebaria. Fresen Environ Bull 2018;27:56945702.
[50] Mohammed FS, Günal S, Şabik AE, Akgul H, Sevindik M. Antioxidant and antimicrobial activity of Scorzonera papposa collected from Iraq and Turkey. Kahramanmaraş Sütçü İmam Univ Doğa Bilim Derg 2020;23:11141118. [CrossRef]
[51] Ou B, Huang D, Hampsch-Woodill M, Flanagan JA, Deemer EK. Analysis of antioxidant activities of common vegetables employing oxygen radical absorbance capacity (ORAC) and ferric reducing antioxidant power (FRAP) assays: a comparative study. J Agric Food Chem 2002;50:31223128. [CrossRef]
[52] Souri R, Amin G, Dehmobed-Sharifabadi A, Nazifi A, Farsam H. Antioxidative activity of sixty plants from Iran. Iran J Pharm Res 2010;3:5559.
[53] Mohamed ME, Arafa AM, Soliman SS, Eldahmy SI. Plant germination and production of callus from the yellow hornpoppy (Glaucium flavum): the first stage of micropropagation. Pharmazie 2014;69:715720.
[54] Yuce E, Yildirim N, Yildirim NC, Paksoy MY, Bagci E. Essential oil composition, antioxidant and antifungal activities of Salvia sclarea L. from Munzur Valley in Tunceli, Turkey. Cell Mol Biol 2014;60:15.
[55] Sevindik M, Akgul H, Pehlivan M, Selamoglu Z. Determination of therapeutic potential of Mentha longifolia ssp. longifolia. Fresen Environ Bull 2017;26:47574763.
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Details

Primary Language	English
Subjects	Biochemistry and Cell Biology (Other)
Journal Section	Research Articles
Authors	Ayşen Özcandır 0000-0003-4969-4712 Falah Saleh Mohammed This is me 0000-0001-9083-1876 Mustafa Sevindik 0000-0001-7223-2220 Candan Aykurt 0000-0001-8700-3500 Zeliha Selamoglu 0000-0001-9056-6435 Hasan Akgül 0000-0001-8514-9776
Publication Date	February 27, 2024
Submission Date	December 10, 2021
Published in Issue	Year 2024 Volume: 42 Issue: 1

Cite

Vancouver	Özcandır A, Mohammed FS, Sevindik M, Aykurt C, Selamoglu Z, Akgül H. Phenolic composition, total antioxidant, antiradical and antimicrobial potential of endemic Glaucium Alakirensis. SIGMA. 2024;42(1):42-8.

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