International E-publication: Publish Projects, Dissertation, Theses, Books, Souvenir, Conference Proceeding with ISBN.  International E-Bulletin: Information/News regarding: Academics and Research

HPLC-MS identification of two major flavonoids in the textile dye extract from fresh leaves of Mangifera indica

    , , , , , ,

Author Affiliations

  • 1Laboratoire de Chimie Organique et Physique Appliquées, Département de Chimie, UFR-SEA, Université Joseph KI-ZERBO, 03 BP 7021 Ouagadougou 03, Burkina Faso
  • 2Laboratoire de Chimie Organique et Physique Appliquées, Département de Chimie, UFR-SEA, Université Joseph KI-ZERBO, 03 BP 7021 Ouagadougou 03, Burkina Faso
  • 3Laboratoire national de santé publique (LNSP), 09 BP 24, Ouagadougou 09, Burkina Faso
  • 4Laboratoire national de santé publique (LNSP), 09 BP 24, Ouagadougou 09, Burkina Faso
  • 5Laboratoire de Chimie Organique et Physique Appliquées, Département de Chimie, UFR-SEA, Université Joseph KI-ZERBO, 03 BP 7021 Ouagadougou 03, Burkina Faso
  • 6Service de Chimie Thérapeutique et de Pharmacognosie, Université de Mons, 25 Chemin du Champ de Mars, 7000 Mons, Belgique
  • 7Laboratoire de Chimie Organique et Physique Appliquées, Département de Chimie, UFR-SEA, Université Joseph KI-ZERBO, 03 BP 7021 Ouagadougou 03, Burkina Faso

Res. J. Recent Sci., Volume 10, Issue (4), Pages 14-25, October,2 (2021)

Abstract

Today, scientific Research in the field of natural textile dyeing is intensifying with the aim of contributing to the orientation of artisanal and industrial tinctorial practices, and to ensure the protection of the environment from harmful releases of effluents of synthetic dyes but also health of consumers. In this dynamic, physico-chemical, qualitative and quantitative, chromatographic and spectral analyses on the extract from fresh leaves of M. indica were carried out and allowed an informed application of this dye on cotton threads. With an extraction yield of about 9%, M. indica leaves have a total flavonoid content of 400.314±2.221mgEQ/g of dye powder. Hydrolyzable and condensed tanninsrateswere 10.157% and 44.850%, respectively. The HPTLC chromatographic profile of the dye extracted from leaves of M. indica indicated the presence of flavonols and xanthonoids (mangiferin). The vibrations of elongation νO-H, νC-N and that of deformation νN-Hrespectively of the alcohols, xanthonoids, amines and/or amides in infra-red suggest the presence of flavonic and xanthonoid colouring molecules that, through metal chelators and/or inter and/or intermolecular combinations, are responsible for the final colour shades obtained in tinctorial practice. High-performance liquid chromatography coupled with mass spectroscopy revealed the presence of major flavonoid molecules such as quercetin 3-O-hexose and kaempferol 3-O-hexose. Tinctorial practice techniques applied on cotton threads have allowed to have various shades of colors (champagne yellow, yellow corn, cow tail, vanilla, yellow March ...). In addition to being a natural acid dye, textile dye extracted from M. indica leaves can be classified as a metal dye in terms of the quality of shades obtained with the use of mordants such as alum, hydrated iron and copper sulfates.

References

  1. Yadav Saroj, Rose Neelam, Singh Jeet and Khambra Krishna (2013)., Natural Dye Powder: An Easy Technique for Eco-Dyeing., Vol. 2 (ISC-2012), 308-311.
  2. De Santis D. and Moresi M. (2007)., Production of alizarin extracts from Rubia tinctorum and assessment of their dyeing properties., Industrial Crops and Products, 26, 151–162. DOI :10.1016/j.indcrop.2007.02.002
  3. M.M. Kamel and Hamada M. Mashaly (2013)., Coloration of Fibrin Fabric with Berberine Natural Dye with Ultrasonic Technique Using ZnO Nano Powder as Light Fastness Improving., World Appl. Sci. J., 26(8), 994-1001. DOI: 10.5829/idosi.wasj.2013.26.08.13545
  4. Dominique Cardon (2014). Le monde des teintures naturelles. Belin, Paris. pp19-25. ISBN : 978-2-7011-6143-3, undefined, undefined
  5. Franziska Ebner and Romana Hasenôhrl (2018)., Naturel dyeing with plants: Glorious colors from roots, leaves and flowers., 6-148. Schiffer; 1st edition (May 28, 2018). pp 1-152. ISBN-13:978-0764355172.
  6. Prabhu, K. H., & Teli, M. D. (2014)., Eco-dyeing using Tamarindus indica L. seed coat tannin as a natural mordant for textiles with antibacterial activity., Journal of Saudi Chemical Society, 18(6), 864-872. https://doi.org/10.1016/ j.jscs.2011.10.014
  7. Brouillard, R., Mazza, G., Saad, Z., Albrecht-Gary, A. M., & Cheminat, A. (1989)., The co-pigmentation reaction of anthocyanins: a microprobe for the structural study of aqueous solutions., Journal of the American Chemical Society, 111(7), 2604-2610. https://doi.org/10.1021/ja00 189a039
  8. Amélie Dulac (2011)., Marqueurs phénotypiques de la diversité des ressources génétiques du genre Hydrangea., Thèse de doctorat, Chimie analytique, Université d’Angers. pp22-26.
  9. Ono, E., Ruike, M., Iwashita, T., Nomoto, K., & Fukui, Y. (2010)., Co-pigmentation and flavonoid glycosyltransferases in blue Veronica persica flowers., Phytochemistry, 71(7), 726-735. doi:10.1016/j. phytochem.2010.02.008.
  10. Sereme, A., Milogo-Rasolodimby, J., Guinko, S., & Nacro, M. (2011)., Propriétés thérapeutiques des plantes à tanins du Burkina Faso., Pharmacopée et médecine traditionnelle africaine, 15.
  11. Yang, R., Li, D., Li, A., & Yang, H. (2018)., Adsorption properties and mechanisms of palygorskite for removal of various ionic dyes from water., Applied Clay Science, 151, 20-28. https://doi.org/10.1016/j.clay.2017.10.016
  12. Jean, B. (2009)., Pharmacognosie, phytochimie, plantes médicinales (4e éd.)., Lavoisier. ISBN 2743019042, 97827 43019044
  13. Harborne, J. B., & Williams, C. A. (2000)., Advances in flavonoid Research since 1992., Phytochemistry, 55(6), 481-504.
  14. Mole, S., & Waterman, P. G. (1987)., A critical analysis of techniques for measuring tannins in ecological studies., Oecologia, 72(1), 137-147. https://doi.org/10.1007/BF00 385059
  15. Ghedadba, N., Hambaba, L., Aberkane, M. C., Oueld-Mokhtar, S. M., Fercha, N., & Bousselsela, H. (2014)., Évaluation de l‟ activité hémostatique in vitro de l‟ extrait aqueux des feuilles de Marrubium vulgare L., Algerian Journal of Natural Products, 2(2), 64-74.
  16. Mahmoudi S., Khali M. and Mahmoudi N. (2013)., Etude de l’extraction des composés phénoliques de différentes parties de la fleur d’artichaut (Cynara scolymus L.)., Nature et Technologie. B-Sciences Agronomiques et Biologiques, 5(2), 35-40.
  17. Ildiko Bros, Maria-Loredana Soran, Rodica Domnica Briciu, and Simona Codruta Cobzac (2009)., HPTLC Quantification of Some Flavonoids in Extracts of Satureja hortensis L. Obtained by Use of Different Techniques., Journal of Planar Chromatography, 22(1) 25–28. DOI:10.1556/JPC.22.2009.1.5
  18. Bhandari, P., Kumar, N., Gupta, A. P., Singh, B., & Kaul, V. K. (2007)., A rapid RP‐HPTLC densitometry method for simultaneous determination of major flavonoids in important medicinal plants., Journal of Separation Science, 30(13), 2092-2096. DOI: 10.1002/jssc.200700066
  19. Jug, U., Glavnik, V., Kranjc, E., & Vovk, I. (2018)., HPTLC–densitometric and HPTLC–MS methods for analysis of flavonoids., Journal of Liquid Chromatography & Related Technologies.
  20. Padma S. Vankar (2016)., Handbook on Natural Dyes for Industrial Applications (Extraction of Dyestuff from Flowers, Leaves, and Vegetables)., 2nd Revised Edition: How to start a natural dyes Sector? How to start a successful natural dyes business, how to start natural dyes production Industry in India, Information on Natural Dyes, Make Natural Dyes for Dyeing, Making Natural Dyes from Plants, Most Profitable natural dyes Business Ideas. NIIR Project Consultancy Services, pp 1-432. ISBN: 97893810 39755, 9381039755
  21. Holčapek, M., Jandera, P., & Zderadička, P. (2001)., High performance liquid chromatography–mass spectrometric analysis of sulphonated dyes and intermediates., Journal of Chromatography A, 926(1), 175-186. DOI : 10.1016/s0021-9673(01)00933-5
  22. D. Tsimogiannis, M. Samiotaki, G. Panayotou and V. Oreopoulou (2007)., Caractérisation des sous-groupes de flavonoids et substitution d’hydroxy par HPLC-MS/MS., Molécules, 12(3), 593-606.
  23. Rong Tsao, Raymond Yang, J Christopher Young and Honghui Zhu (2003)., Profils polyphénoliques de huit cultivars de pommes par chromatographie liquide haute performance (HPLC)., Journal de chimie agricole et alimentaire, 51(21), 6347-6353.
  24. Artur Figueirinha, Antonio Paranhos, Jose´ J. Perez-Alonso, Celestino Santos-Buelga and Maria T. Batista (2008)., Cymbopogon citratus leaves: Characterisation of flavonoids by HPLC–PDA–ESI/MS/MS and an approach to their potential as a source of bioactive polyphenols., Food Chemistry, 110, 718–728. DOI:10.1016/j.foodchem.2008. 02.045
  25. Corrado Caristi, Ersilia Bellocco, Vincenza Panzera, Giovanni Toscano, Rosa Vadala, and Ugo Leuzzi (2003)., Flavonoids detection by HPLC-DAD-MS-MS in Lemon Juices from Sicilian Cultivars., J. Agric. Food Chem., 51, 3528-3534. DOI: 10.1021/jf0262357
  26. Pesnel S., Pasquet V., Perwuelz A., Hazard D. and Dupuich C. (2012)., Le mercerisage du coton améliore l’impact environnemental des chemises., veramtex.com, l. 1-5.
  27. Hyun-Joo Song, Su-Mi Kim and Wha-Soon Song (2005)., The Physical Properties and Dyeability of KOH Treated Cotton Fabrics., Fashion and Textile Research Journal, 7(1), 91-95.
  28. François Delamare and Bernard Monasse (2005)., Le rôle de l’alun comme mordant en teinture. Une approche par simulation numérique: cas de la teinture de la cellulose à l’alizarine., Centre Jean Bérard, 277-291. DOI : https://doi.org/10.4000/books.pcjb.605
  29. Umar, I. A., & Nor, M. N. M. (2013)., Fastness properties of colorant extracted from tamarind fruits pods to dye cotton and silk fabrics., J. Nat. Sci. Res, 3(4), 60-67.
  30. Marie Marquet (2019)., Guide des teintures naturelles ; Plantes à fleurs. Ed. Belin-Guides des Fous de Nature (Vie pratique and Loisirs)., pp 1-242. EAN : 9782410016475
  31. Aurélia Wolff (2018)., Teinturres végétales, carnet de recettes et cahier d’inspirations., pp 1-182. ISBN-10: ‎ 2212675097; ISBN-13:978-2212675092.
  32. Virendra Kumar Gupta (2019)., Fundamentals of Natural Dyes and Its Application on Textile Substrates. Chemistry and Technology of Natural and Synthetic Dyes and pigments., 1-33. DOI: 10.5772/intechopen.89964
  33. Wagner, H., & Bladt, S. (1996)., Plant drug analysis: a thin layer chromatography atlas. Springer Science & Business Media., ISBN 978-3-642-00574-9. DOI : 10.1007/978-3-642-00574-9
  34. Louis Fagbohoun (2014)., Etude chimique de colorants naturels et matériaux résineux traditionnels au Bénin dans le domaine artisanal., Thèse de doctorat. Université d’Avignon. pp 101-105.
  35. Bains, S, Singh, OP, Goraya, G, & Kang, M. (2003)., Dyeing of cotton with mango (Mangifera indica) dye. Journal of the Textile Association, 64(1), 23–26., undefined
  36. Juliana Aparecida Severi, Zeila Pinheiro Lima, Hélio Kushima Alba Regina Monteiro Souza Brito, Loudres Campaner dos Saontos, wagner Vilegas and Clélia Akiko Hiruma-Lima (2009)., Polyphénols à action antiulcérogène issus de la decoction aqueuse de feuillles de manguier (Mangifera indica L.)., Molécules, 14(3), 1098-1110. DOI: 10.3390/molecules14031098
  37. Mohammad Gias Uddin (2015)., Extraction of eco-friendly natural dyes from mango leaves and their application on silk fabric., Textiles and Clothing Sustainability, 1, 7. https://doi.org/10.1186/s40689-015-0007-9
  38. Melle Christina GOULHOT (1996)., Le Manguier : Intérêt pour la phytothérapie., Thèse de doctorat. Université Joseph FOURIER-GRENOBLE, 1. pp 1-173 (31-45).
  39. Anjaneyulu, V., Babu, J. S., & Connolly, J. D. (1994)., 29-Hydroxymangiferonic acid from Mangifera indica., Phytochemistry, 35(5), 1301-1303.
  40. J.C. Barreto, M.T.S. Trevisan, W.E. Hull, G. Erben, ES De Brito, B. Pfundstein, G. Würtele, B. Spiegelhalder and R.W. Owen (2008)., Characterization and Quantitation of Polyphenolic Compounds in Bark, Kernel, Leaves, and Peel of Mango (Mangifera indica L.)., Journal of agricultural and food chemistry, 56(14), 5599-5610. DOI:10.1021/jf 800738r
  41. Klaus Hunger (2007)., Industrial Dyes: Chemistry, Properties, Applications., pp1-648. ISBN: 978-3-527-304 26-4
  42. Youssef Mir (2002)., La fixation simultanée d’un mélange de deux colorants réactifs et disperses sur un tissu de coton / polyester par rayonnement infrarouge et air chaud., Génie chimique-Université de Sherbrooke. pp 1-5. https://libguides.biblio.usherbrooke.ca/savoirs.