The study of Reynoutria sachalinensis plant raw material amino acid composition

Introduction . Sakhalin (giant) knotweed ( Reynoutria sachalinensis (F. Schmidt) Nakai) is grown in Ukraine as a fodder, ornamental and honey plant. In other countries, species of the genus Reinutria are grown as raw materials for the pharmaceutical and bioenergy industries. According to the literat...

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Main Authors: Alrikabi, Abdulrazzaq Yasir Hussain, Protska, Viktoriia, Zhuravel, Iryna
Format: Article in Journal/Newspaper
Language:Ukrainian
Published: Zenodo 2021
Subjects:
Online Access:https://dx.doi.org/10.5281/zenodo.5499709
https://zenodo.org/record/5499709
id ftdatacite:10.5281/zenodo.5499709
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language Ukrainian
topic Sakhalin giant knotweed
Reynoutria sachalinensis F. Schmidt Nakai
amino acids
ion-exchange liquid-column chromatography
spellingShingle Sakhalin giant knotweed
Reynoutria sachalinensis F. Schmidt Nakai
amino acids
ion-exchange liquid-column chromatography
Alrikabi, Abdulrazzaq Yasir Hussain
Protska, Viktoriia
Zhuravel, Iryna
The study of Reynoutria sachalinensis plant raw material amino acid composition
topic_facet Sakhalin giant knotweed
Reynoutria sachalinensis F. Schmidt Nakai
amino acids
ion-exchange liquid-column chromatography
description Introduction . Sakhalin (giant) knotweed ( Reynoutria sachalinensis (F. Schmidt) Nakai) is grown in Ukraine as a fodder, ornamental and honey plant. In other countries, species of the genus Reinutria are grown as raw materials for the pharmaceutical and bioenergy industries. According to the literature, species of the genus Reynoutria accumulate hydroxycinnamic acids, flavonoids, anthocyanins, tannins, essential oil, stilbene and anthrachinone derivatives. Sakhalin (giant) knotweed is a source of carotenoids, ascorbic acid, iron, strontium and calcium, and the protein content in fresh raw materials reaches more than 300 mg / kg. Traditionally, types of reynutria are used as medicine in China, Korea, Taiwan and Japan. These plants are used to treat chronic bronchitis, infectious hepatitis, osteomyelitis, diarrhea, gallstones, hypertension, atherosclerosis, hyperlipidemia, bacterial vaginitis, menoxenia, dysmenorrhea, leukorrhea, snake bites, skin burns, skin burns. The pharmacological activity of Sakhalin (giant) knotweed is dependent to a complex of biological activity compounds, among which amino acids are important. Some data of the amino acid composition of Sakhalin (giant) knotweed herb have been found in the literature. This data vary considerably depending on the plant's place of growth. In addition, information of the qualitative composition and quantitative content of amino acids in the leaves, roots and flowers of Sakhalin (giant) knotweed has not been found in the literature. Therefore, the study of the amino acid composition of the raw materials of Reynoutria sachalinensis (F. Schmidt) Nakai) is relevant. The aim of the work was a comparative study of the qualitative composition and determination of the quantitative content of amino acids in the roots, grass, leaves and flowers of Reynoutria sachalinensis (F. Schmidt) Nakai). Materials and methods. The study of the qualitative composition and determination of the amino acid composition of the roots, leaves, herb and flowers of Sakhalin (giant) knotweed was performed by ion-exchange liquid-column chromatography. Raw materials were harvested in 2019-2020 in the Kharkiv region (Ukraine). Identification and quantification of amino acids was performed by ion exchange liquid column chromatography on an automatic amino acid analyzer T 339. Results and discussion. According to the results of the experiment, the content of 18 amino acids was identified and determined in all samples of raw materials of Sakhalin (giant) knotweed, 9 of which are essential. The results of the experiment showed that almost the same amount of amino acids accumulated in the leaves (74.07 mg / kg) and flowers (73.13 mg / kg) of Sakhalin (giant) knotweed. In herb (47.65 mg / kg) they contained almost 1.5 times less, in roots (31.36 mg / kg) almost twice less than in leaves. The maximum content of the sum of essential amino acids was noted in the Sakhalin (giant) knotweed leaf (30.31 mg / kg). The glutamic acid dominated in all samples of the studied raw material was. The maximum content of this compound was in the flowers of Sakhalin (giant) knotweed (13.87 mg / kg). The content of aspartic acid in the raw material of this plant ranged from 3.47 to 8.55 mg / kg. Most of it was contained in the letter of the Sakhalin (giant) knotweed. Arginine (7.95 mg / kg) prevailed in the roots of Sakhalin (giant) knotweed among essential amino acid. Lysine and leucine were the major essential amino acids in the leaf of the studied plant. The content of them was almost at the same level and was 5.28 and 5.94 mg / kg, respectively. Lysine dominated in herb (4.45 mg / kg) and flowers (5.53 mg / kg) among essential amino acids. Conclusions. The obtained results indicate the prospects of using raw materials of Sakhalin reynutria as a potential source of biological active compounds, in particular amino acids, and will be used for the development of drugs based on these raw materials. : {"references": ["1.\tTeleuta A., Titei V. & Cosman S. (2013). Biological Characteristics and Fodder Value of Some Species of Plants of the Genus Polygonum L. Under the Conditions of the Republic of Moldova. Bulletin UASMV serie Agriculture, 70(1), 258-257.", "2.\tKovarova M., Bartunkova K., Frantik T., Koblihova H., Prchalova K. & Vosatka M. (2010). Factors influencing the production of stilbenes by the knotweed, Reynoutria \u00d7 bohemica. BMC Plant Biol., 10, 19-35.", "3.\tEl-Readi M. Z., Eid S. Y., Al-Amodi H. S. & Wink M. (2016). Fallopia japonica: Bioactive Secondary Metabolites and Molecular Mode of Anticancer. J Tradit Med Clin Natur., 5(3), 1000193-1000213. Retrieved from: https://www.omicsonline.org/open-access/fallopia-japonica-bioactive-secondary-metabolites-and-molecular-modeof-anticancer-.php?aid=80920", "4.\tFilatova L. \u0410., Yakimova \u0410. V. & Zorina N. \u0410. (2005). Physiology-biochemical performance of Polygonum sacchalinensis. Bulletin of Perm University. Biology, 6, 64-67.", "5.\tNisreen H., Trak T. H. & Lata M. (2019). Amino acids as Medical food and their Therapeutic uses. International Journal of Scientific Research and Reviews., 8 (2), 579-585.", "6.\tRiaz N. N., Fazal-ur-Rehman M. & Ahmad M. M. (2017). Amino Acids: Role in Human Biology and Medicinal Chemistry - A Review. Medicinal Chemistry, 7(10), 302-307. https://doi.org/10.4172/2161-0444.1000472", "7.\tHou Y., Yin Y. & Wu G. (2015). Dietary essentiality of \"nutritionally non-essential amino acids\" for animals and humans. Exp Biol Med (Maywood), 240(8), 997-1007. https://doi.org/10.1177/1535370215587913", "8.\tHou Y. & Wu G. (2018). Nutritionally Essential Amino Acids. Adv Nutr., 9(6), 849-851. https://doi.org/10.1093/advances/nmy054", "9.\tRahmonov O., Czylok A., Orczewska A., Majgier L. & Parusel T. (2014). Chemical composition of the leaves of Reynoutria japonica Houtt. and soil features in polluted areas. Central European Journal of Biology, 9(3), 320-330. https://doi.org/10.2478/s11535-013-0267-9", "10.\t Patocka J., Navratilova Z. & Ovando M. (2017). Biologically active compounds of Knotweed (Reynoutria spp.). Mil. Med. Sci. Lett. (Voj. Zdrav. Listy), 86(1), 17-31. https://doi.org/10.31482/mmsl.2017.004", "11.\tTi\u0163ei V., Cirlig N., Stavarache M., Gu\u021bu A. & Co\u015fman S. (2018) Some biological features and the biochemical composition of Polygonum sachalinense in Moldova. Research Journal of Agricultural Science, 50(3), 26-32.", "12.\tIvanov V.V. & Denisenko O.N. (2013). Polyphenol compound of polygonum (reynoutria) sachalinense. Fundamental Research.. 10, 374-377.", "13.\tSmetanina K. (2011). About the need of introduction of European certification of herbal medicines in Ukraine. Phytoterapy. Chasopys, 1, 69-71.", "14.\tKyslychenko O., Protska V. & Zhuravel I. (2019). Phytochemical research of Vagrant Parmelia thalli as a prospective source of certain nutrients. Norwegian Journal of development of the International Science, 30 (1), 44-49."]}
format Article in Journal/Newspaper
author Alrikabi, Abdulrazzaq Yasir Hussain
Protska, Viktoriia
Zhuravel, Iryna
author_facet Alrikabi, Abdulrazzaq Yasir Hussain
Protska, Viktoriia
Zhuravel, Iryna
author_sort Alrikabi, Abdulrazzaq Yasir Hussain
title The study of Reynoutria sachalinensis plant raw material amino acid composition
title_short The study of Reynoutria sachalinensis plant raw material amino acid composition
title_full The study of Reynoutria sachalinensis plant raw material amino acid composition
title_fullStr The study of Reynoutria sachalinensis plant raw material amino acid composition
title_full_unstemmed The study of Reynoutria sachalinensis plant raw material amino acid composition
title_sort study of reynoutria sachalinensis plant raw material amino acid composition
publisher Zenodo
publishDate 2021
url https://dx.doi.org/10.5281/zenodo.5499709
https://zenodo.org/record/5499709
long_lat ENVELOPE(146.183,146.183,69.067,69.067)
geographic Yakimova
geographic_facet Yakimova
genre Sakhalin
genre_facet Sakhalin
op_relation https://dx.doi.org/10.5281/zenodo.5499710
op_rights Open Access
Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
cc-by-4.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC-BY
op_doi https://doi.org/10.5281/zenodo.5499709
https://doi.org/10.5281/zenodo.5499710
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spelling ftdatacite:10.5281/zenodo.5499709 2023-05-15T18:08:51+02:00 The study of Reynoutria sachalinensis plant raw material amino acid composition Alrikabi, Abdulrazzaq Yasir Hussain Protska, Viktoriia Zhuravel, Iryna 2021 https://dx.doi.org/10.5281/zenodo.5499709 https://zenodo.org/record/5499709 uk ukr Zenodo https://dx.doi.org/10.5281/zenodo.5499710 Open Access Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 info:eu-repo/semantics/openAccess CC-BY Sakhalin giant knotweed Reynoutria sachalinensis F. Schmidt Nakai amino acids ion-exchange liquid-column chromatography JournalArticle article-journal ScholarlyArticle 2021 ftdatacite https://doi.org/10.5281/zenodo.5499709 https://doi.org/10.5281/zenodo.5499710 2021-11-05T12:55:41Z Introduction . Sakhalin (giant) knotweed ( Reynoutria sachalinensis (F. Schmidt) Nakai) is grown in Ukraine as a fodder, ornamental and honey plant. In other countries, species of the genus Reinutria are grown as raw materials for the pharmaceutical and bioenergy industries. According to the literature, species of the genus Reynoutria accumulate hydroxycinnamic acids, flavonoids, anthocyanins, tannins, essential oil, stilbene and anthrachinone derivatives. Sakhalin (giant) knotweed is a source of carotenoids, ascorbic acid, iron, strontium and calcium, and the protein content in fresh raw materials reaches more than 300 mg / kg. Traditionally, types of reynutria are used as medicine in China, Korea, Taiwan and Japan. These plants are used to treat chronic bronchitis, infectious hepatitis, osteomyelitis, diarrhea, gallstones, hypertension, atherosclerosis, hyperlipidemia, bacterial vaginitis, menoxenia, dysmenorrhea, leukorrhea, snake bites, skin burns, skin burns. The pharmacological activity of Sakhalin (giant) knotweed is dependent to a complex of biological activity compounds, among which amino acids are important. Some data of the amino acid composition of Sakhalin (giant) knotweed herb have been found in the literature. This data vary considerably depending on the plant's place of growth. In addition, information of the qualitative composition and quantitative content of amino acids in the leaves, roots and flowers of Sakhalin (giant) knotweed has not been found in the literature. Therefore, the study of the amino acid composition of the raw materials of Reynoutria sachalinensis (F. Schmidt) Nakai) is relevant. The aim of the work was a comparative study of the qualitative composition and determination of the quantitative content of amino acids in the roots, grass, leaves and flowers of Reynoutria sachalinensis (F. Schmidt) Nakai). Materials and methods. The study of the qualitative composition and determination of the amino acid composition of the roots, leaves, herb and flowers of Sakhalin (giant) knotweed was performed by ion-exchange liquid-column chromatography. Raw materials were harvested in 2019-2020 in the Kharkiv region (Ukraine). Identification and quantification of amino acids was performed by ion exchange liquid column chromatography on an automatic amino acid analyzer T 339. Results and discussion. According to the results of the experiment, the content of 18 amino acids was identified and determined in all samples of raw materials of Sakhalin (giant) knotweed, 9 of which are essential. The results of the experiment showed that almost the same amount of amino acids accumulated in the leaves (74.07 mg / kg) and flowers (73.13 mg / kg) of Sakhalin (giant) knotweed. In herb (47.65 mg / kg) they contained almost 1.5 times less, in roots (31.36 mg / kg) almost twice less than in leaves. The maximum content of the sum of essential amino acids was noted in the Sakhalin (giant) knotweed leaf (30.31 mg / kg). The glutamic acid dominated in all samples of the studied raw material was. The maximum content of this compound was in the flowers of Sakhalin (giant) knotweed (13.87 mg / kg). The content of aspartic acid in the raw material of this plant ranged from 3.47 to 8.55 mg / kg. Most of it was contained in the letter of the Sakhalin (giant) knotweed. Arginine (7.95 mg / kg) prevailed in the roots of Sakhalin (giant) knotweed among essential amino acid. Lysine and leucine were the major essential amino acids in the leaf of the studied plant. The content of them was almost at the same level and was 5.28 and 5.94 mg / kg, respectively. Lysine dominated in herb (4.45 mg / kg) and flowers (5.53 mg / kg) among essential amino acids. Conclusions. The obtained results indicate the prospects of using raw materials of Sakhalin reynutria as a potential source of biological active compounds, in particular amino acids, and will be used for the development of drugs based on these raw materials. : {"references": ["1.\tTeleuta A., Titei V. & Cosman S. (2013). Biological Characteristics and Fodder Value of Some Species of Plants of the Genus Polygonum L. Under the Conditions of the Republic of Moldova. Bulletin UASMV serie Agriculture, 70(1), 258-257.", "2.\tKovarova M., Bartunkova K., Frantik T., Koblihova H., Prchalova K. & Vosatka M. (2010). Factors influencing the production of stilbenes by the knotweed, Reynoutria \u00d7 bohemica. BMC Plant Biol., 10, 19-35.", "3.\tEl-Readi M. Z., Eid S. Y., Al-Amodi H. S. & Wink M. (2016). Fallopia japonica: Bioactive Secondary Metabolites and Molecular Mode of Anticancer. J Tradit Med Clin Natur., 5(3), 1000193-1000213. Retrieved from: https://www.omicsonline.org/open-access/fallopia-japonica-bioactive-secondary-metabolites-and-molecular-modeof-anticancer-.php?aid=80920", "4.\tFilatova L. \u0410., Yakimova \u0410. V. & Zorina N. \u0410. (2005). Physiology-biochemical performance of Polygonum sacchalinensis. Bulletin of Perm University. Biology, 6, 64-67.", "5.\tNisreen H., Trak T. H. & Lata M. (2019). Amino acids as Medical food and their Therapeutic uses. International Journal of Scientific Research and Reviews., 8 (2), 579-585.", "6.\tRiaz N. N., Fazal-ur-Rehman M. & Ahmad M. M. (2017). Amino Acids: Role in Human Biology and Medicinal Chemistry - A Review. Medicinal Chemistry, 7(10), 302-307. https://doi.org/10.4172/2161-0444.1000472", "7.\tHou Y., Yin Y. & Wu G. (2015). Dietary essentiality of \"nutritionally non-essential amino acids\" for animals and humans. Exp Biol Med (Maywood), 240(8), 997-1007. https://doi.org/10.1177/1535370215587913", "8.\tHou Y. & Wu G. (2018). Nutritionally Essential Amino Acids. Adv Nutr., 9(6), 849-851. https://doi.org/10.1093/advances/nmy054", "9.\tRahmonov O., Czylok A., Orczewska A., Majgier L. & Parusel T. (2014). Chemical composition of the leaves of Reynoutria japonica Houtt. and soil features in polluted areas. Central European Journal of Biology, 9(3), 320-330. https://doi.org/10.2478/s11535-013-0267-9", "10.\t Patocka J., Navratilova Z. & Ovando M. (2017). Biologically active compounds of Knotweed (Reynoutria spp.). Mil. Med. Sci. Lett. (Voj. Zdrav. Listy), 86(1), 17-31. https://doi.org/10.31482/mmsl.2017.004", "11.\tTi\u0163ei V., Cirlig N., Stavarache M., Gu\u021bu A. & Co\u015fman S. (2018) Some biological features and the biochemical composition of Polygonum sachalinense in Moldova. Research Journal of Agricultural Science, 50(3), 26-32.", "12.\tIvanov V.V. & Denisenko O.N. (2013). Polyphenol compound of polygonum (reynoutria) sachalinense. Fundamental Research.. 10, 374-377.", "13.\tSmetanina K. (2011). About the need of introduction of European certification of herbal medicines in Ukraine. Phytoterapy. Chasopys, 1, 69-71.", "14.\tKyslychenko O., Protska V. & Zhuravel I. (2019). Phytochemical research of Vagrant Parmelia thalli as a prospective source of certain nutrients. Norwegian Journal of development of the International Science, 30 (1), 44-49."]} Article in Journal/Newspaper Sakhalin DataCite Metadata Store (German National Library of Science and Technology) Yakimova ENVELOPE(146.183,146.183,69.067,69.067)