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      Comprehensive analysis of Eleutherococcus senticosus (Rupr. & Maxim.) Maxim. fruits based on UPLC–MS/MS and GC–MS: A rapid qualitative analysis

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          Abstract

          Eleutherococcus senticosus (Rupr. & Maxim.) Maxim. fruits (ESF), as a natural edible fruit, has long been popularized. However, few studies have conducted comprehensive chemical analyses of it. This study aimed to assess nonvolatile, volatile, and fatty oil components of ESF and to preliminarily explore the antioxidant activities. The qualitative and quantitative analyses of volatile and fatty oil components of ESF from 15 different regions were performed by the gas chromatography–mass spectrometry (GC–MS). Totally, 37 and 28 compounds were identified from volatile oil and fatty oil, respectively. The ultra‐high‐performance liquid chromatography–quadrupole time‐of‐flight mass spectrometry (UPLC–QTOF–MS/MS) was used to accurately detect 43 compounds of nonvolatile components. The volatile and fatty oil components and nonvolatile components of ESF were used as samples to determine the antioxidant activity of 2,2‐diphenyl‐1‐picrylhydrazyl (DPPH) in vitro. The components of ESF had antioxidant activity, and the nonvolatile components had stronger antioxidant activity. The results revealed that the proposed method, which is of great significance for the screening of new active ingredients, is valuable for the identification of pharmaceutical component and further development of food industry.

          Abstract

          UPLC–QTOF–MS/MS and UNIFI were used to identify 43 nonvolatile components of ESF. GC–MS and NIST14.L identified 65 volatile components in ESF from different areas. The antioxidant effects of ESF volatile components in vitro were investigated.

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          Evolution of the adaptogenic concept from traditional use to medical systems: Pharmacology of stress‐ and aging‐related diseases

          Abstract Adaptogens comprise a category of herbal medicinal and nutritional products promoting adaptability, resilience, and survival of living organisms in stress. The aim of this review was to summarize the growing knowledge about common adaptogenic plants used in various traditional medical systems (TMS) and conventional medicine and to provide a modern rationale for their use in the treatment of stress‐induced and aging‐related disorders. Adaptogens have pharmacologically pleiotropic effects on the neuroendocrine‐immune system, which explain their traditional use for the treatment of a wide range of conditions. They exhibit a biphasic dose‐effect response: at low doses they function as mild stress‐mimetics, which activate the adaptive stress‐response signaling pathways to cope with severe stress. That is in line with their traditional use for preventing premature aging and to maintain good health and vitality. However, the potential of adaptogens remains poorly explored. Treatment of stress and aging‐related diseases require novel approaches. Some combinations of adaptogenic plants provide unique effects due to their synergistic interactions in organisms not obtainable by any ingredient independently. Further progress in this field needs to focus on discovering new combinations of adaptogens based on traditional medical concepts. Robust and rigorous approaches including network pharmacology and systems pharmacology could help in analyzing potential synergistic effects and, more broadly, future uses of adaptogens. In conclusion, the evolution of the adaptogenic concept has led back to basics of TMS and a new level of understanding of holistic approach. It provides a rationale for their use in stress‐induced and aging‐related diseases.
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            Medicinal plants from the 14th edition of the Russian Pharmacopoeia, recent updates

            Herbal medicine in Russia has a long history starting with handwritten herbalist manuscripts from the Middle Ages to the officinal Pharmacopoeia of the 21st century. The "herbophilious" Russian population has accumulated a lot of knowledge about the beneficial effects of local medicinal plants. Yet, for a long time, Russian traditional and officinal herbal medicine was not well known to the international audience. In our previous comprehensive review, we discussed the pharmacological effects of specific plants included in the 11th edition of the Pharmacopoeia of the USSR, which was also for a while used in Russia. The 14th edition of the Russian Federation's State Pharmacopoeia was implemented in 2018.
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              Saturated very-long-chain fatty acids promote cotton fiber and Arabidopsis cell elongation by activating ethylene biosynthesis.

              Fatty acids are essential for membrane biosynthesis in all organisms and serve as signaling molecules in many animals. Here, we found that saturated very-long-chain fatty acids (VLCFAs; C20:0 to C30:0) exogenously applied in ovule culture medium significantly promoted cotton (Gossypium hirsutum) fiber cell elongation, whereas acetochlor (2-chloro-N-[ethoxymethyl]-N-[2-ethyl-6-methyl-phenyl]-acetamide; ACE), which inhibits VLCFA biosynthesis, abolished fiber growth. This inhibition was overcome by lignoceric acid (C24:0). Elongating fibers contained significantly higher amounts of VLCFAs than those of wild-type or fuzzless-lintless mutant ovules. Ethylene nullified inhibition by ACE, whereas C24:0 was inactive in the presence of the ethylene biosynthesis inhibitor (l-[2-aminoethoxyvinyl]-glycine), indicating that VLCFAs may act upstream of ethylene. C24:0 induced a rapid and significant increase in ACO (for 1-aminocyclopropane-1-carboxylic acid oxidase) transcript levels that resulted in substantial ethylene production. C24:0 also promoted Ser palmitoyltransferase expression at a later stage, resulting in increased sphingolipid biosynthesis. Application of C24:0 not only stimulated Arabidopsis thaliana root cell growth but also complemented the cut1 phenotype. Transgenic expression of Gh KCS13/CER6, encoding the cotton 3-ketoacyl-CoA synthase, in the cut1 background produced similar results. Promotion of Arabidopsis stem elongation was accompanied by increased ACO transcript levels. Thus, VLCFAs may be involved in maximizing the extensibility of cotton fibers and multiple Arabidopsis cell types, possibly by activating ethylene biosynthesis.
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                Author and article information

                Contributors
                wzbmailbox@hljucm.net
                Journal
                Food Sci Nutr
                Food Sci Nutr
                10.1002/(ISSN)2048-7177
                FSN3
                Food Science & Nutrition
                John Wiley and Sons Inc. (Hoboken )
                2048-7177
                13 December 2023
                March 2024
                : 12
                : 3 ( doiID: 10.1002/fsn3.v12.3 )
                : 1911-1927
                Affiliations
                [ 1 ] Key Laboratory of Basic and Application Research of Beiyao, Ministry of Education Heilongjiang University of Chinese Medicine Harbin China
                [ 2 ] Department of Rheumatism, The First Affiliated Hospital Heilongjiang University of Chinese Medicine Harbin China
                [ 3 ] Department of Acupuncture, The Second Affiliated Hospital Heilongjiang University of Chinese Medicine Harbin China
                Author notes
                [*] [* ] Correspondence

                Zhibin Wang, Key Laboratory of Basic and Application Research of Beiyao, Ministry of Education, Heilongjiang University of Chinese Medicine, 150040 Harbin, China.

                Email: wzbmailbox@ 123456hljucm.net

                Author information
                https://orcid.org/0000-0003-3814-4213
                Article
                FSN33887 FSN3-2023-05-0847.R1
                10.1002/fsn3.3887
                10916571
                38455163
                185ed614-8dfd-4a0b-9911-369fea531236
                © 2023 The Authors. Food Science & Nutrition published by Wiley Periodicals LLC.

                This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

                History
                : 31 October 2023
                : 06 May 2023
                : 21 November 2023
                Page count
                Figures: 7, Tables: 6, Pages: 17, Words: 6809
                Funding
                Funded by: Heilongjiang Provincial Department of Education Project
                Award ID: 12511512
                Funded by: Heilongjiang Provincial Key Research Plan
                Award ID: GA22B012
                Funded by: Heilongjiang Touyan Innovation Team Program (2019)
                Funded by: National Provincial Key Research Plan
                Award ID: 2016YFC0500303
                Funded by: Postdoctoral Research Initiative Funding Project of Heilongjiang Province
                Award ID: LBH‐Q16214
                Funded by: Research Project of “Excellent Innovative Talent Support Program” of Heilongjiang University of Chinese Medicine
                Award ID: 2018RCD03
                Categories
                Original Article
                Original Articles
                Custom metadata
                2.0
                March 2024
                Converter:WILEY_ML3GV2_TO_JATSPMC version:6.3.9 mode:remove_FC converted:06.03.2024

                antioxidant activity, eleutherococcus senticosus (rupr. & maxim.) maxim.,gc–ms,uplc–qtof–ms/ms

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