Features of the chemical composition of some species of Crataegus L. (Rosaceae)

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

Introduction. Study of non-pharmacopoeia species of Crataegus L. an important task of modern pharmacy. More than 40 wild species of Crataegus L. grow in Russia, and more than 90 species have been introduced. The State Pharmacopoeia of the Russian Federation for hawthorn fruits and flowers uses standardization of flavonoids in terms of hyperoside. However, a number of authors are developing methods for standardization of various raw materials of the genus Crataegus L. for other target substances, for example: vitexin, vitexin-2-rhamnoside, rutin, procyanidins, quercetin, catechin, anthocyanins.

The purpose of the work is to search for differences in the chemical composition of introduced species of the genus Crataegus L. in the conditions of the Republic of Bashkortostan.

Material and methods. The objects of the study were shoots of 23 non-pharmacopoeial species of the genus Crataegus L. and shoots of the pharmacopoeial species Crataegus sanguinea Pall., taken for comparative analysis, harvested during the flowering period in 2019–2022 in the South Ural Botanical Garden-Institute – a separate structural subdivision of the Federal state budgetary scientific institution "Ufa Federal Research Center" of the Russian Academy of Sciences in Ufa in the Republic of Bashkortostan. Comparative qualitative analysis was carried out by TLC and UV-spectrophotometry.

Results and discussions. As a result of chromatographic studies, it was found that hyperoside and vitexin are present in all the studied species. As a result of the study of UV spectra, it turned out that in 18 studied species of Crataegus L., the maximum absorption was observed at 410± nm, which indicates the predominance of hyperoside, and in other 6 species, the maximum absorption was observed at 396±2 nm, which indicates the predominance of vitexin in raw materials. Comparing the data obtained, it turned out that in the subgenus Americanae, the accumulation of hyperoside is observed in most species – 81% of the studied species, in the subgenus Sanguinea – 50% and in the subgenus Crataegus – 100% of the studied species.

Conclusion. According to the studies obtained, the European species Crataegus L. they accumulate mainly vitexin, and Asian and American species of Crataegus L. – hyperoside. The most promising for further research are C.rivularis, C. calpodendron, C. collina, C. horrida, C. laurentiana, C. pennsylvanica, C. submollis, C. densiflora, C. douglasii, C. macracantha, C. prunifolia.

Full Text

Restricted Access

About the authors

Svetlana Rashitovna Khasanova

Bashkir State Medical University of the Ministry of Health of the Russian Federation

Email: svet-khasanova@yandex.ru
ORCID iD: 0000-0001-7000-8014

Doctor of Pharmaceutical Sciences, Professor of the Department of Pharmacognosy with a Course in Botany and Basics of Phytotherapy

Russian Federation, Ufa

Irina Alexandrovna Samylina

Sechenov First Moscow State Medical University (Sechenov University)

Email: laznata@mail.ru
ORCID iD: 0000-0002-4895-0203

Doctor of Pharmaceutical Sciences, Corresponding Member of the Russian Academy of Sciences, Honorary Head, Professor of the Department of Pharmaceutical Natural Sciences

Russian Federation, Moscow

Natalia Vladimirovna Kudashkina

Bashkir State Medical University of the Ministry of Health of the Russian Federation

Email: phytoart@mail.ru
ORCID iD: 0000-0002-0280-143X

Doctor of Pharmaceutical Sciences, Professor, Head of the Department of Pharmacognosy with a Course in Botany and Basics of Phytotherapy

Russian Federation, Ufa

Aliya Alikovna Pavlova

Bashkir State Medical University

Email: aliya-gai@mail.ru
ORCID iD: 0009-0000-6297-8344

Postgraduate Student of the Department of Pharmacognosy with a Course in Botany and Basics of Phytotherapy

Russian Federation, Ufa

Tatiana Viktorovna Shubina

Bashkir State Medical University of the Ministry of Health of the Russian Federation

Author for correspondence.
Email: shubina.pharm@mail.ru
ORCID iD: 0000-0001-8729-4483

Postgraduate Student of the Department of Pharmacognosy with a Course in Botany and Basics of Phytotherapy

Russian Federation, Ufa

References

  1. Государственная Фармакопея Российской Федерации [Электронный ресурс]. XIV издание. Москва, 2018; 4: 7020. URL: http://resource.rucml.ru/feml/pharmacopia/14_2/HTML/index.html. [Gosudarstvennaja Farmakopeja Rossijskoj Federacii [Jelektronnyj resurs]. XIV izdanie. Moskva, 2018; 4: 7020. URL: http://resource.rucml.ru/feml/pharmacopia/14_2/HTML/index.html (in Russian)].
  2. Вафин Р.В., Путенихин В.П. Боярышники. Интродукция и биологические особенности. М.: Наука, 2003; 224. [Vafin R.V., Putenihin V.P. Boyaryshniki. Introdukciya i biologicheskie osobennosti. M.: Nauka, 2003; 224 (in Russian)].
  3. Государственная фармакопея Республики Беларусь: в 3 т. Под общ. ред. А.А. Шерякова. Молодечно: Победа, 2008; 2: 472. [Gosudarstvennaja farmakopeja Respubliki Belarus': v 3 t. Рod obshh. red. A.A. Sherjakova. Molodechno: Pobeda, 2008; 2: 472 (in Russian)].
  4. European Pharmacopoeia Online 9.0 [Электронный ресурс]. URL: http://online6.edqm.eu/ep900
  5. Pharmacopoeia of the People's Republic of China. P.: Peoples Medical Publishing House, 2005; 1: 974.
  6. United States Pharmacopoeia (USP 32 – NF 27). V.: The United States Pharmacopeial Convention, 2009; 815.
  7. Уфимов Р.А. Заметки о роде Crataegus L. (Rosaceae). Новости систематики высших растений. 2013; 44: 113–25. [Ufimov R.A. Notes on the genus Crataegus L. (Rosaceae). Novosti sistematiki vysshih rastenij. 2013; 44: 113–25 (in Russian)].
  8. Lo E.Y.Y., Stefanović S., Dickinson T.A. Molecular reappraisal of relationships between Crataegus and Mespilus (Rosaceae, Pyreae) – two genera or one? Syst. Bot. 2007; 32 (3): 596–616. doi: 10.1600/036364407782250562.
  9. Lo E.Y.Y., Stefanović S., Christensen K.I., Dickinson T.A. Evidence for genetic association between East Asian and western North American Crataegus L. (Rosaceae) and rapid divergence of the eastern North American lineages based on multiple DNA sequences. Molec. Phylogen. Evol. 2009; 51: 157–68. doi: 10.1016/j.ympev.2009.01.018.
  10. Wallaart T.E., Pras N., Beekman A.C., Quax W.J. Seasonal variation of artemisinin and its biosynthetic precursors in plants of Artemisia annua of different geographical origin; proof for the existence of chemotypes. Planta Med. 2000; 66: 57–62. doi: 10.1055/s-2000-11115.
  11. Шкроботько П.Ю., Ткачев А.В., Юсубов М.С., Белоусов М.В., Фурса Н.С. Компонентный состав эфирного масла корневищ с корнями Valeriana officinalis L.S.STR. в окрестностях г. Ярославля и Valeriana collina WALLR. в окрестностях г. Запорожье. Вестник ВГУ: Серия: Химия, биология, фармация, 2009; 2: 190–7. [Shkrobot'ko P.Ju., Tkachev A.V., Jusubov M.S., Belousov M.V., Fursa N.S. Component composition of essential oil of rhizomes with roots of Valeriana officinalis L.S.STR. in the vicinity Yaroslavl and Valeriana collina WALLR. in the vicinity of Zaporozhye. Vestnik VGU: Serija: Himija, biologija, farmacija, 2009; 2: 190–7 (in Russian)].
  12. Куркин В.А., Волкова Н.А., Правдивцева О.Е., Куркина А.В., Трифонова П.В., Дубищев А.В., Агапов А.И., Егорова С.Н. Определение содержания флавоноидов в цветках, листьях и побегах боярышника. Вопросы биологической, медицинской и фармацевтической химии. 2022; 25 (4): 3−9. doi: 10.29296/25877313-2022-04-01. [Kurkin V.A., Volkova N.A., Pravdivceva O.E., Kurkina A.V., Trifonova P.V., Dubishhev A.V., Agapov A.I., Egorova S.N. Determination of flavonoid content in flowers, leaves and shoots of hawthorn. Voprosy biologicheskoj, medicinskoj i farmacevticheskoj himii. 2022; 25 (4): 3−9. doi: 10.29296/25877313-2022-04-01 (in Russian)].
  13. Котова Э.Э., Котов А.Г., Хованская Н.П. Стандартизация плодов боярышника и лекарственных препаратов на их основе по показателю «Количественное определение». Фармаком. 2004; 4: 35–41. [Kotova Je.Je., Kotov A.G., Hovanskaja N.P. Standardization of hawthorn fruits and medicines based on them according to the indicator "Quantitative determination". Farmakom. 2004; 4: 35–41 (in Russian)].
  14. Морозова Т.В., Куркин В.А., Правдивцева О.Е. Актуальные проблемы химической стандартизации сырья лекарственных растений рода боярышник Crataegus. Фармация и фармакология. 2018; 6 (2): 104–20. doi: 10.19163/2307-9266-2018-6-2-104-120. [Morozova T.V., Kurkin V.A., Pravdivceva O.E. Actual problems of chemical standardization of raw materials of medicinal plants of the genus hawthorn Crataegus. Farmacija i farmakologija. 2018; 6 (2): 104–20. doi: 10.19163/2307-9266-2018-6-2-104-120 (in Russian)].
  15. Родионова Т.В., Хишова О.М. Стандартизация листьев боярышника. Вестник Фармации (Витебск). 2008; 2 (40): 70–9. [Rodionova T.V., Hishova O.M. Standardization of hawthorn leaves. Vestnik Farmacii (Vitebsk). 2008; 2 (40): 70–9 (in Russian)].
  16. Самылина И.А., Киселева Т.Л. Количественное определение суммы флавоноидов в плодах боярышника. Фармация. 1987; 5: 30–2. [Samylina I.A., Kiseleva T.L. Quantitative determination of the amount of flavonoids in hawthorn fruits. 1987; 5: 30–2 (in Russian)].
  17. Шайхутдинов И.Х., Куркин В.А., Правдивцева О.Е. Разработка подходов к стандартизации плодов боярышника мягковатого. Фармация. 2020; 69 (6): 20–4. [Shajhutdinov I.H., Kurkin V.A., Pravdivceva O.E. Razrabotka podhodov k standartizacii plodov boyaryshnika myagkovatogo. Farmaciya. 2020; 69 (6): 20–4 (in Russian)].
  18. Mudge E.M., Liu Y., Lund J.A., Brown P.N. Single-Laboratory Validation for the Determination of Flavonoids in Hawthorn Leaves and Finished Products by LC-UV. Planta Med. 2016; 82 (17): 1487–92. doi: 10.1055/s-0042-118463.
  19. Phipps J.B. Biogeographic, taxonomic, and cladistics relationships between East Asiatic and North American Crataegus. Ann. Missouri Bot. Gard. 1983; 70 (4): 667–700.
  20. Phipps J.B., Robertson K.R., Smith P.G., Rohrer J.R. A checklist of the subfamily Maloideae (Rosaceae). Canad. J. Bot. 1990; 68 (10): 2209–69.
  21. Государственная фармакопея Российской Федерации XV издания. URL: http://pharmacopoeia.regmed.ru/pharmacopoeia/izdanie-15. [Gosudarstvennaja farmakopeja Rossijskoj Federacii XV izdanija. URL: http://pharmacopoeia.regmed.ru/pharmacopoeia/izdanie-15 (in Russian)].
  22. Жалалова Н.К., Хасанова С.Р., Кудашкина Н.В. Разработка методики количественного определения флавоноидов в побегах Сrataegus almaatensis Pojark. Башкирский химический журнал. 2021; 28 (1): 83–9. doi: 10.17122/bcj-2021-1-83-89. [Zhalalova N.K., Khasanova S.R., Kudashkina N.V. Development of a technique for quantitative determination of flavonoids in shoots of Сrataegus almaatensis Pojark. Bashkirskij himicheskij zhurnal. 2021; 28 (1): 83–9. doi: 10.17122/bcj-2021-1-83-89 (in Russian)].

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2. Fig. 1. Chromatogram diagram in the system: ethyl acetate-formic acid-water (8:1:1), 1 – С. pennsylvanica, 2– С. douglasii, 3 – С. chlorosarca, 4 – С. submollis, 5 – С. flabellata, 6 – С. laurentiana, 7 – С. macrosperma, 8 – С. volgensis, 9 – С. prunifolia, 10 – С. macracantha, 11 – С. horrida, 12 – С. almaatensis, 13 – С. densiflora, 14 – С. irrasa, 15 – С. canadensis, 16 – С. collina, 17 – С. russanovii, 18 – С. arnoldiana, 19 – С. calpodendron, 20 – С. holmesiana, 21 – С. ambigua, 22 – С. punctata, 23 – С. rivularis, 24 – C. sanguinea

Download (60KB)
Indexing metadata
3. Fig. 2. UV spectra of Crataegus L. species with a predominance of hyperoside and a standard sample of hyperoside (1 – С. prunifolia, 2 – С. rivularis, 3 – С. horrida, 4 – С. densiflora, 5 – С. irrasa, 6 – С. canadensis, 7 – С. collina, 8 – С. ambigua, 9 – С. arnoldiana, 10 – С. calpodendron, 11 – С. pennsylvanica, 12 – С. douglasii, 13 – С. submollis, 14 – С. laurentiana, 15 – С. volgensis, 16 – С. punctata, 17 – С. macracantha, 18 – C. sanguinea)

Download (286KB)
Indexing metadata
4. Fig. 3. UV spectra of Crataegus L. species with a predominance of vitexin and a standard sample of vitexin (1 – С. holmesiana, 2 – С. macrosperma, 3 – С. russanovii, 4 – С. almaatensis, 5 – С. chlorosarca, 6 – С. flabellata)

Download (140KB)
Indexing metadata
5. Fig. 4. Distribution of the predominant hyperoside or vitexin content in the types of different sections: 1 – Oxyacanthae, 2 – Rotundifoliae, 3 – Molles, 4 – Calpodendra, 5 – Punctatae, 6 – Tenuifloriae, 7 – Coccineae, 8 – Macracanthae, 9 – Sanguineae, 10 – Douglasii

Download (70KB)
Indexing metadata
6. Fig. 5. Content of flavonoids on hyperoside, %

Download (124KB)
Indexing metadata
7. Fig. 6. Content of flavonoids on vitexin, %

Download (72KB)
Indexing metadata

Copyright (c) 2024 Russkiy Vrach Publishing House

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies