Mineral composition and amino acids of plants of the genus  Geranium  L. of the Baikal region flora

V. M. Mirovich; Мирович В. М.; E. G. Privalova; Привалова Е. Г.; E. P. Chebykin; Чебыкин Е. П.; Lyubov V. Dudareva; Дударева Любовь Виссарионовна

doi:10.35693/AVP689917

Mineral composition and amino acids of plants of the genus Geranium L. of the Baikal region flora

Authors: Mirovich V.M.¹, Privalova E.G.¹, Chebykin E.P.²^,3, Dudareva L.V.⁴
Affiliations:
1. Irkutsk State Medical University
2. Limnological Institute of the Siberian Branch of the Russian Academy of Sciences
3. Institute of the Earth’s Crust of the Siberian Branch of the Russian Academy of Sciences
4. Siberian Institute of Plant Physiology and Biochemistry of the Siberian Branch of the Russian Academy of Sciences
Issue: Vol 25, No 4 (2025)
Pages: 65-71
Section: PHARMACEUTICAL CHEMISTRY, PHARMACOGNOSY
URL: https://journal-vniispk.ru/2410-3764/article/view/363645
DOI: https://doi.org/10.35693/AVP689917
ID: 363645

Cite item

Full Text

Abstract
About the authors
References
Supplementary files
Statistics

Abstract

Aim – to study the component composition of elements and amino acids in three species of the genus Geranium L. growing in the Baikal region.

Material and methods. The above-ground organs of Geranium wlassovianum Fisch., G. eriostemon Fisch., G. pratense L. were collected during the flowering period in the southern regions of the Irkutsk region. The elemental composition was studied after the ashing of the raw material samples (0.030 g) using inductively coupled plasma mass spectrometry (ICP-MS) on an Agilent 7500 ce quadrupole mass spectrometer. Amino acids were analyzed after hydrolysis using the Amino Acid Analyzer AAA 339 M (Mikrotechna, Czech Republic).

Results. The three species of the genus Geranium contain 54 elements, including essential ones. There is a high content of manganese in G. wlassovianum 39 mg/g, in G. eriostemon 66 mg/g, in G. pratense 43 mg/g. 23 amino acids have been identified in the composition of amino acids. The predominant amino acids were glutamic acid (5.94 and 11.32 mg/g, respectively) in G. wlassovianum and G. pratense, and glutamine (4.06 mg/g), which was identified only in this species. G. wlassovianum also contained high levels of aspartic and cysteine acids (4.44 and 2.00 mg/g, respectively), G. eriostemon contains high levels of glutamic acid and phenylalanine (3.61 and 2.90 mg/g, respectively), and G. pratense contains high levels of aspartic acid and leucine (6.96 and 6.22 mg/g, respectively).

Conclusion. The analysis showed the presence in the above-ground organs of the species Geranium wlassovianum, G. eriostemon, G. pratense of the flora of the Baikal region of elements and amino acids that are involved in ensuring the normal functioning of the gastrointestinal tract and the genitourinary system.

Keywords

Geranium wlassovianum, G. eriostemon, G. pratense, elements, amino acids

About the authors

V. M. Mirovich

Irkutsk State Medical University

Email: mirko02@yandex.ru
ORCID iD: 0000-0003-2092-1547

Dr. Sci. (Pharmacy), Professor, Head of the Department of Pharmacognosy and Pharmaceutical Technology

Russian Federation, Irkutsk

E. G. Privalova

Irkutsk State Medical University

Author for correspondence.
Email: eleprivalova@yandex.ru
ORCID iD: 0000-0002-9878-1372

Cand. Sci. (Pharmacy), Associate professor, Associate professor of the Department of Pharmacognosy and Pharmaceutical Technology

Russian Federation, Irkutsk

E. P. Chebykin

Limnological Institute of the Siberian Branch of the Russian Academy of Sciences; Institute of the Earth’s Crust of the Siberian Branch of the Russian Academy of Sciences

Email: epcheb@yandex.ru
ORCID iD: 0000-0002-7588-3886

Cand. Sci. (Chemistry), Senior researcher, Researcher

Russian Federation, Irkutsk; Irkutsk

Lyubov V. Dudareva

Siberian Institute of Plant Physiology and Biochemistry of the Siberian Branch of the Russian Academy of Sciences

Email: lviss12@gmail.com
ORCID iD: 0000-0003-1185-7467

Candidate of Biological Sciences, Head of the Laboratory of Physical and Chemical Research Methods

Russian Federation, 664033, Irkutsk, Lermontov Street, 132

References

Wang J, Ye Q, Zhang T, et al. Palynological analysis of genus Geranium (Geraniaceae) and its systematic implications using scanning electron microscopy. Caryologia. 2021;74(3):31-43. doi: 10.36253/caryologia-1109
Siddikov DR, Bobakulov KhM, Nishanbaev SZ, Abdullaev ND. Phenolic compounds of the aerial part of Geranium Charlesii (AITCH. & HEMSL.) VVED. Chemistry of Plant Raw Materials. 2017;2:127-132. [Сиддиков Д.Р., Бобакулов Х.М., Нишанбаев С.З., Абдуллаев Н.Д. Фенольные соединения надземной части Geranium Charlesii (AITCH. & HEMSL.) VVED. Химия растительного сырья. 2017;2:127-132]. doi: 10.14258/jcprm.2017021393
Ilyina LP, Olennikov DN, Antsupova TP. Chemical Composition of Geranium wlassovianum (Geraniaceae). Chemistry of Plant Raw Materials. 2022;3:211-217. [Ильина Л.П., Оленников Д.Н., Анцупова Т.П. Химический состав Geranium wlassovianum (Geraniaceae). Химия растительного сырья. 2022;3:211-217]. doi: 10.14258/jcprm.2022039789
Numonov S, Edirs S, Bobakulov K, et al. Evaluation of the antidiabetic activity and chemical composition of Geranium collinum root extracts – Computational and experimental investigations. Molecules. 2017;22(6):983. doi: 10.3390/molecules22060983
Graça VC, Ferreira IC, Santos PF. Phytochemical composition and biological activities of Geranium robertianum L.: A review. Industrial Crops and Products. 2016;87:363-378. doi: 10.1016/j.indcrop.2016.04.058
Pozdnyakova TA, Bubenchikov RA. Standardization of the raw materials of Siberian geranium Geranium sibiricum L. by the content of flavonoids. Scientific Notes of Orel State University. Series: Natural, Technical and Medical Sciences. 2013:3:288-291. (In Russ.). [Позднякова Т.А., Бубенчиков Р.А. Стандартизация сырья герани сибирской Geranium sibiricum L. по содержанию флавоноидов. Ученые записки Орловского государственного университета. Серия: Естественные, технические и медицинские науки. 2013:3:288-291].
Rybashlykova LP. Macro- and microelements in medicinal plants cultivated in the Astrakhan Region. Issues of Biological, Medical, and Pharmaceutical Chemistry. 2017;20(5):33-35. (In Russ.). [Рыбашлыкова Л.П. Макро-и микроэлементы в лекарственных растениях, культивируемых в Астраханской области. Вопросы биологической, медицинской и фармацевтической химии. 2017;20(5):33-35].
Dyakova NA. Study of the Extraction of Macroelements from Medicinal Plant Raw Materials into Infusions and Decoctions. Chemical and Pharmaceutical Journal. 2022;56(12):47-52. (In Russ.). [Дьякова Н.А. Изучение особенностей извлечения макроэлементов из лекарственного растительного сырья в настои и отвары. Химико-фармацевтический журнал. 2022;56(12):47-52]. doi: 10.30906/0023-1134-2022-56-12-47-52
Ivanova EV, Voronkova IP, Bondarenko AI, Tarenkova IV. Immunotropic effect of medicinal plants with different trace element compositions. Russian Journal of Immunology. 2021;24(2):331-336. [Иванова Е.В., Воронкова И.П., Бондаренко А.И., Таренкова И.В. Иммунотропный эффект лекарственных растений с различным микроэлементным составом. Российский иммунологический журнал. 2021;24(2): 331-336]. doi: 10.46235/1028-7221-994-IEO
Chernyavskaya IV, Chernyaeva AA, Dubovik VN, et al. New possibilities for the treatment of subclinical thyrotoxicosis in elderly patients: the place and role of herbal medicine. Problems of Endocrine Pathology. 2018;4:27-36. (In Russ.). [Чернявская И.В., Черняева А.А., Дубовик В.Н., и др. Новые возможности лечения субклинического тиреотоксикоза у пожилых пациентов: место и роль фитотерапии. Проблеми ендокринної патології. 2018;4:27-36]. doi: 10.21856/j-PEP.2018.4.03
Garaev IKh, Musin IN, Zenitova LA. Antiseptic bandages based on sphagnum. Bulletin of Medical Science. 2019;1(13):8-13. [Гараев И.Х, Мусин И.Н., Зенитова Л.А. Антисептические перевязочные материалы на основе сфагнума. Бюллетень медицинской науки. 2019;1(13):8-13].
Eshibaev AA, Aimenova ZE, Matchanov AD, Islamov AH. Results of a comparative study of the macro- and microelement composition of Lagochilus inebrians and Lagochilus setulosus. Bulletin of KazNU. Biological Series. 2015;64(2):12-19. [Ешибаев А.А., Айменова Ж.Е., Матчанов А.Д., Исламов А.Х. Результаты сравнительного исследования макро-и микроэлементного состава Lagochilus inebrians и Lagochilus setulosus. Вестник КазНУ. Серия биологическая. 2015;64(2):12-19]. URL: https://bb.kaznu.kz/index.php/biology/article/view/1058/1005
Dyakova N.A. Investigation of Polygonum Aviculare Mineral Complex. Traditional Medicine. 2023;2(72):23-28. [Дьякова Н.А. Исследование минерального комплекса травы горца птичьего. Традиционная медицина. 2023;2(72):23-28]. doi: 10.54296/18186173_2023_2_23
Mirovich VM, Sokolova YaV, Chebykin EP. Investigation of the elemental composition of the aboveground organs of the motherwort (Leonurus deminutus V. Krez.), native to Central Siberia. Man and his health. 2021;4:74-82. [Мирович В.М., Соколова Я.В., Чебыкин Е.П. Исследование элементного состава надземных органов пустырника уменьшенного (Leonurus deminutus V. Kreсz.), произрастающего в Центральной Сибири. Человек и его здоровье. 2021;4:74-82]. doi: 10.21626/vestnik/2021-4/10
Poroikov VV. Search for New Pharmacological Substances Based on Computer Prediction of Biological Activity Spectra. Laboratory and Production. 2021;1:72-80. [Поройков В.В. Поиск новых фармакологических веществ на основе компьютерного прогнозирования спектров биологической активности. Лаборатория и производство. 2021;1:72-80]. doi: 10.32757/2619-0923.2021.1.16.72.80
Nieder R, Benbi DK, Reichl FX. Macro- and Secondary Elements and Their Role in Human Health. In: Soil Components and Human Health. Dordrecht: Springer, 2018:257-315. doi: 10.1007/978-94-024-1222-2_6
Razarenova KN, Zhokhova EV, Belyaeva AI. Mineral composition of some species of the genus Geranium. Plant Resources. 2013;60(1):18-124. (In Russ.). [Разаренова К.Н., Жохова Е.В., Беляева А.И. Минеральный состав некоторых видов рода Geranium. Растительные ресурсы. 2013;60(1):18-124].
Shchetinina SYu. The Importance of Minerals for Human Health. International Journal of Humanities and Natural Sciences. 2024;4-4(91):27-31. [Щетинина С.Ю. Значение минеральных веществ для здоровья человека. Международный журнал гуманитарных и естественных наук. 2024;4-4(91):27-31]. doi: 10.24412/2500-1000-2024-4-4-27-31
Novikov VS, Shustov EB. The Role of Minerals and Trace Elements in Maintaining Human Health. Bulletin of Education and Science Development of the Russian Academy of Natural Sciences. 2017;3:5-16. [Новиков В.С., Шустов Е.Б. Роль минеральных веществ и микроэлементов в сохранении здоровья человека. Вестник образования и развития науки Российской академии естественных наук. 2017;3:5-16]. doi: 10.24412/2500-1000-2024-4-4-27-31
Razarenova KN, Zakharova AM, Protasova ID, Zhokhova EV. Amino acid composition of the aerial part of Geranium pratense L., Geranium sylvaticum L., Geranium palustre L. Butlerov Communications. 2012;31(8):73-78. (In Russ.). [Разаренова К.Н., Захарова А.М., Протасова И.Д., Жохова Е.В. Аминокислотный состав надземной части Geranium pratense L., Geranium sylvaticum L., Geranium palustre L. Бутлеровские сообщения. 2012;31(8):73-78].
Nosirova VM, Khuzhaev VU. Protein content and amino acid composition of Asperugo procumbens, a plant native to Uzbekistan. Universum: chemistry and biology. 2025;5(131):30-32. [Носирова В.М., Хужаев В.У. Содержание белка и состав аминокислот у растения Asperugo procumbens, произрастающего в Узбекистане. Universum: химия и биология. 2025;5(131):30-32]. doi: 10.32743/UniChem.2025.131.5.19868
Nabiev AA, Tagiev MM, Musaev FM. The Role of Wild Purslane Amino Acids in Nutrition, Depending on the Degree of Maturity. Bulletin of Science. 2025;6(87):2491-2503. (In Russ.). [Набиев А.А., Тагиев М.М., Мусаев Ф.М. Роль в питании аминокислот дикорастущего портулака в зависимости от степени зрелости. Вестник науки. 2025;6(87):2491-2503].

Supplementary files

Supplementary Files

Action

1. JATS XML

Download

Username
Password
Remember me

Forgot password?	Register

Username
Password
Remember me

Forgot password?	Register