TRYPTOPHAN DERIVATIVES, PHENOLIC COMPOUNDS AND ANTIOXIDANT POTENTIAL OF SOME WILD TANACETUM TAXA FROM TURKEY

Authors

  • Emel DIRAZ-YILDIRIM Kahramanmaras Sutcu Imam University, Science and Letter Faculty, Biology Department, 46100, Kahramanmaraş, Turkey. *Corresponding author: emeldiraz@hotmail.com https://orcid.org/0000-0001-5299-8122
  • Sengul KARAMAN Kahramanmaras Sutcu Imam University, Science and Letter Faculty, Biology Department, 46100, Kahramanmaraş, Turkey.
  • Muhittin KULAK Department of Herbal and Animal Production, Vocational School of Technical Sciences, Igdir University, 76000, Igdir, Turkey. https://orcid.org/0000-0003-3673-9221
  • Ahmet ILCIM Mustafa Kemal University, Science and Letter Faculty, Biology Department, 31060, Hatay, Turkey.

DOI:

https://doi.org/10.24193/subbchem.2021.4.08

Keywords:

Tanacetum, parthenolide, antioxidant activity, tryptophan, serotonin, melatonin.

Abstract

The important molecule tryptophan and its derivatives serotonin and melatonin have vital functions in human and plant biosystem. Recent reports claimed these molecules and parthenolide may also have a role in COVID-19 treatments. Herewith the study, contents of chlorogenic acid, cynarin, quinic acid, parthenolide, and tryptophan derivatives in leaf and flowers of seven species of Tanacetum from Turkey were examined using HPLC. The methanolic extracts of the species were also screened for their total phenolic content and DPPH scavenging activity. Regarding to HPLC data, the highest amount of chlorogenic acid and cynarin were detected in T. cilicicum, quinic acid in T. densum subsp. amani and parthenolide in T. argenteum subsp. argenteum leaves. Also, the highest amount of tryptophan and serotonin were estimated in T. argenteum subsp. argenteum. Melatonin content was highest in T. densum subsp. amani. All Tanacetum species exhibited potent antioxidant activities. T. densum subsp. amani (Afşin) flowers had higher DPPH activity than control group BHT and T. cilicicum leaves and flowers had the highest total phenolic content. Herewith, phenolic profiles of T. argenteum subsp. argenteum, T. armenum and T. densum subsp. amani and tryptophan derivates of the species were reported for the first time.

References

V. Kumar; D. Tyagi; J Pharmacogn. Phytochem., 2013, 2,159-63.

M. Korkmaz; A. Kandemir; V. Ilhan; N. Yildirim Doğan; Turk. J. Bot., 2015, 39, 96-104.

S.J. Murch; B.S. Colleen; K.S. Praveen; The Lancet., 1997, 350,1598-1599.

Z. C. Arituluk; I. I. T. Çankaya; A. M. G. Özkan; FABAD J. Pharm. Sci., 2016, 41, 17-25.

B. H. Kwok; B. Koh; M. I. Ndubuisi; M. Elofsson; C. M. Crews; Chem. & biol., 2001, 8, 759-766.

A. Ghantous; A. Sinjab; Z. Herceg; N. Darwiche; 2013, Drug Discov., 18, 894–905.

R.R. Freund; P. Gobrecht; D. Fischer; H. D. Arndt; Nat. Prod. Rep., 2020, 37, 541-565.

M. Bahrami; M. Kamalinejad; S. A. Latifi; F. Seif; M. Dadmehr; Phytother Res., 2020, 34, 2429–2430.

S.J. Murch; R.S. Krishna; PK Saxena; Plant Cell Rep., 2000, 19, 698–704

R. Long; Y. Zhu; S. Zhou; Medicine., 2019, 98, e14099.

Y. Yan; Q. Shi; B. Gong; Review of melatonin in horticultural crops, IntechOpen Book Series, London UK, 2020, 9, pp. 107-115.

M. M. Essa; H. Hamdan; S. B. Chidambaram; B. Al-Balushi; G. J. Guillemin; D. M. Ojcius; M. W. Qoronfleh; Int J Tryptophan Res., 2020,13, 1-2.

F. Pérez-Llamas; J. Hernández-Ruiz; A. Cuesta; S. Zamora; M. B. Arnao; Antioxidants., 2020, 9, 158-176.

S. Agatonovic-Kustrin; D. W. Morton; Stud. Nat. Prod. Chem., 2018, 58, 61-91.

M. D. Ferrari; K. I. Roon; R. B. Lipton; P. J. Goadsby; The Lancet., 2001, 358, 1668-1675.

C. Wu; F. Chen; X. Wang; Y. Wu; M. Dong; G. He; R.D. Galyean; L. He; G. Huang; Phytochem Anal., 2007, 18, 401-410.

S. Farzadfar; F. Zarinkamar; M. Hojati; Plant Physiol Biochem. 2017, 112, 207-217.

A. Nieto-Trujillo; L. Buendía-González; C. García-Morales; A. Román-Guerrero; F. Cruz- Sosa; M.E. Estrada-Zúñigin; Rev Mex Ing Quim., 2017, 16, 371-383.

D. Fraisse; C. Felgines; O. Texier; J.L. Lamaison; Food Nutr Sci., 2011, 2, 181-192.

K. R. Hordiei, T. M. Gontova, A. G. Serbin, A. G. Kotov, E. E. Kotova; Ukr. biopharm. j., 2019, 3, 64-70.

I. H. Gecibesler; A. Kocak; I. Demirtas; Nat. Prod. Res., 2016, 30, 2850-2855.

İ. Orhan Erdoğan; F. Tosun; A.R. Gülpınar; M. Kartal; A. Duran; F. Mihoğlugil; D. Akalgan; Phytochem. Lett., 2015,11, 347-352.

S. Ozbilgin; E.K. Akkol; B. Ergene Oz; M. Ilhan; G. Saltan; O.B. Acikara; İ. Suntar; Iran J Basic Med Sci., 2018, 2,145-152.

M. B. Arnao, J. Hernández-Ruiz; Stud. Nat. Prod. Chem., 2015, 46, 519-545

D. J. Kennaway; Food Funct., 2020, 11, 9359-9369.

X. Huang, G. Mazza; Crit Rev Food Sci Nutr., 2011, 51, 269-284.

M. H. Chung, T.S. Deng; Bot Stud., 2020, 61, 1-9.

D. Ly; K. Kang; J. Choi; A. Ishihara; K. Back; S. Lee; J Med Food., 2008, 11, 385-389

G. Chen; Y. Huo; D.X. Tan; Z. Liang; W. Zhang; Y. Zhang; Life Sci., 2003, 73, 19–26.

M. Ansari; K.H. Rafiee; N. Yasa; S. Vardasbi; S.M. Naimi; A. Nowrouzi; Daru. 2010, 18, 173–178.

A. Savcı; E. F. Koçpınar; Y. Alan; M. Kurşat; Int. Food Res. J. 2020, 27, 160-170.

M. A. Esmaeili; A. Sonboli; M. A. Noushabadi; Food chem., 2010, 121,148-155.

A. Savcı; A. Yusuf; E. F. Koçpinar; M. Kurşat; S. Topdemir; M., Karataş; B. Çakmak; SDÜFEFFD, 2019, 14, 112-126.

B. Tepe; A. Sokmen; Bioresour. Technol., 2007, 98, 3076-3079.

İ. Emre; Braz. J. Biol., 2021, 81 -1114

B. Kose; Y. Iscan; G. Goger; F. B. Demirci; C. Elmacı; Pak. J. Pharm. Sci., 2017, 30, 2047-2052.

S. Gharibi; B. E. S. Tabatabaei; G. Saeidi; S. A. H. Goli; M. Talebi; Ind Crops Prod., 2013, 50, 154-158.

G. Zengin; A. Cvetanović; U. Gašić; A. Stupar; G. Bulut; I. Şenkardes; Ind Crops Prod., 2020, 146, 112-202.

M. Topal; H. Gocer; F. Topal; P. Kalin; L. P. Köse; İ. Gülçin; S. H. Alwasel; J Enzym Inhib Med Ch., 2016, 31, 266-275.

K. Schütz; D. Kammerer; R. Carle; A. Schieber; J. Agric. Food Chem., 2004, 52, 4090−4096

N. J. Jun; K. C. Jang; S. C Kim; D. Y. Moon; K. C. Seong; K. H. Kang; K. H. Park; J. Appl. Biol. Chem., 2007, 50, 244-248.

A.J.C. Grierson; Tanacetum L. In: Davis PH, editor. Flora of Turkey and the East Aegean Islands, Vol. 5. Edinburgh, UK: Edinburgh University Press, 1975, pp. 256–292.

P.H. Davis; Flora of Turkey and The East Aegean Island Vol. 5, Edinburgh Univ. Press., Edinburgh, 1965-1985.

J. M. Fonseca; J.W. Rushing; N.C. Rajapakse; J. Appl. Hortic., 2008, 10, 36-39.

STUDIA UBB CHEMIA, Volume 66 (LXVI), No. 4, December 2021

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Published

2021-12-30

How to Cite

DIRAZ-YILDIRIM, E., KARAMAN, S., KULAK, M., & ILCIM, A. (2021). TRYPTOPHAN DERIVATIVES, PHENOLIC COMPOUNDS AND ANTIOXIDANT POTENTIAL OF SOME WILD TANACETUM TAXA FROM TURKEY. Studia Universitatis Babeș-Bolyai Chemia, 66(4), 107–122. https://doi.org/10.24193/subbchem.2021.4.08

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Volume 66, No. 4, 2021

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