Research of polyphenolic compounds of Circaea lutetiana l.
Abstract
One of the renewable sources of plant material is the plants of the Onagraceae L. family, growing on the territory of the Republic of Kazakhstan. The plant Circaea lutetiana L., (bipartite of Paris) of the genus Circaea L., (bipartite) of the family Onagraceae L., (fireweed), which belongs to medicinal, dyeing and food plants, was taken as an object of study. The presence of polyphenolic compounds was detected by paper chromatography in an ascending manner in solvent systems: butanol-acetic acid-water (BAW) (41:5), (40:12.5:29), 2%, 15% acetic acid with specific developers: diazotized sulfanilic acid (DZSA), diazotized para-nitroaniline (DZPNA), ammonia vapors, aluminum chloride (AlCl3), ferric chloride (FeCl3), ammonium-iron alum (AIA), vanillin reagent in sulfuric acid. The content of gallic and ferulic acids was determined in the roots and fruits of the plant, and ellagic acid in the leaves and fruits. Flavonoids and tannins of the hydrolyzable type were found in all plant organs, the largest number of them in fruits and the smallest in roots. Using the method of spectrophotometry in all plant organs, the content of flavonoids in terms of State standard sample (SSS) quercetin was determined (roots 0.96%, stems 2.03%, leaves 2.74%, fruits 3.67%), the content of tannins in terms of tannin (roots 0.005%, stems 1.19%, leaves 3.69%, fruits 5.99%).
References
2 Canadanovic-Brunet JM, Ðilas SM, Cetkovic GS, Tumbas VT, Mandic AI, Canadanovic VM (2016) Int J Food Sci Tech 41:667-673. Crossref
3 Deng Y, Zhao Y, Padilla-Zakour O, Yang G (2015) Ind Crop Prod 74:803-809. Crossref
4 Zillich O, Schweiggert-Weisz U, Eisner P, Kerscher M (2015) Int J Cosmetic Sci 37:455-464. Crossref
5 Zemour K, Labdelli A, Adda A, Dellal A, Talou T, Merah O (2019) Cosmet 6:55. Crossref
6 Yin J, Ahn HS, Ha SY, Hwang IH, Yoon KD, et al (2018) Nat Prod Res 19: 3317-3320. Crossref
7 Kozhabekov SS, Zhubanov AA, Toktarbay Zh (2019) OGST - Revue d’IFP Energies nouvelles 74:1-10. Crossref
8 Martins N, Barros L, Ferreira ICFR (2016) Trends Food Sci Tech 48:1-12. Crossref
9 Taârit M, Ben Msaada K, Hosni K, Marzouk B (2012) J Sci Food Agr 92:1614-1619. Crossref
10 Dauletov Y, Nuraje N, Abdiyev K, Toktarbay Zh, Zhursumbaeva M (2019) J Surfactants Deterg 22:1129-1137. Crossref
11 Granica S, Piwowarski JP, Kiss AK (2013) Acta Biol Cracov Bot 55:16-22. Crossref
12 Razaronova KN, Zhokhova YeV (2011) Chemistry of Plant Raw Materials [Khimiya rastitel’nogo syr’ya] 4:187-192. (In Russian)
13 Wang L, Weller CL (2006) Trends in Food Science & Technology 17:300-312. Crossref
14 Bucic´-Kojic´ A, Planinic M, Tomas S, Jokic S, Mujic I, Bilic M, Velic D (2011) Pol J Food Nutr Sci 22:195-199. Crossref
15 Lomboyeva SS, Tankhayeva LM, Olennikov DN (2008) Chemistry of Plant Raw Materials [Khimiya rastitel’nogo syr’ya] 2:65-68. (In Russian)
16 Kurkin VA, Avdeyeva YeV, Kurkina AV, Pravdivtseva OYe, Braslavskiy VB, Yegorov MV, Ryzhov VM (2014) Traditional Medicine [Traditsionnaya meditsina] 4:39-42. (In Russian)
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