在俄罗斯联邦不同地区收集的帝王草样品的空中部分的比较植物化学分析

Q3 Pharmacology, Toxicology and Pharmaceutics
Anastasiia O. Ponkratova, A. Whaley, E. V. Zhokhova, E. Bezverkhniaia, V. Luzhanin
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In the scientific literature, there is no data on the variation in the chemical composition of E. nigrum depending on the growing area. The obtained data are necessary for a reasonable choice of the collecting location for the plant, with the aim of its further chemical and pharmacological research for the development of promising drug candidates.Aim. To carry out a comparative analysis of secondary metabolites composition in the aerial parts of Empetrum nigrum growing in different regions of the Russian Federation.Materials and methods. Samples collected in three different areas were used to compare HPLC profiles: sample 1 was collected next to SPCPU nursery garden of medicinal plants (Leningrad region, Vsevolozhsky district, Priozerskoe highway, 38 km) in July 2020, sample 2 was collected on the Kola Peninsula, around the Khibiny mountains in July 2020, sample 3 was collected on the Kamchatka Peninsula, next to Khalaktyrsky beach (Pacific Ocean coast) in July 2020. 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引用次数: 0

摘要

介绍许多研究表明,各种遗传和环境因素会影响次生代谢产物的生物合成和积累。特别是,众所周知,当地的地理气候、季节变化、光照、温度、湿度和土壤肥力等外部条件会影响化学成分,从而影响制药和食品工业中使用的植物的治疗特性。Empetrum nigrum L.是各种药理学活性次级代谢产物的丰富来源——查尔酮、二氢查尔酮,双苄基,9,10-二氢菲,黄酮类化合物和原花青素。在科学文献中,没有关于黑藻化学成分随生长面积变化的数据。所获得的数据对于合理选择植物的采集位置是必要的,目的是对其进行进一步的化学和药理学研究,以开发有前景的候选药物。目标对俄罗斯联邦不同地区生长的黑米地上部分的次生代谢产物组成进行比较分析。材料和方法。使用在三个不同地区采集的样品来比较HPLC图谱:样品1于2020年7月在SPCPU药用植物苗圃(列宁格勒地区、Vsevolozhsky区、Priozerskoe高速公路,38公里)旁采集,样品2于2020年6月在基比尼山脉周围的科拉半岛采集,样品3于堪察加半岛采集,2020年7月,在Khalaktyrsky海滩(太平洋海岸)旁。使用配备有二极管阵列检测器的Prominence LC-20装置(Shimadzu,Japan)通过分析高效液相色谱(HPLC)分析提取物。结果和讨论。研究的结果是,首次确定了生长在俄罗斯联邦不同地区的黑米地上部分的定性化学成分存在显著差异。与样品1和2相比,在堪察加半岛采集的样品3含有种类最多的极性次级代谢产物,属于类黄酮、单宁和酚羧酸类,而在列宁格勒地区采集的芽中,主要代谢产物是属于查尔酮、二氢查尔酮和双苄基的弱极性化合物,和9,10-二氢菲,在采集于Khibiny山脉的样品2中,发现次级代谢产物的定性含量最低。这种变异可能是由各种环境因素(生物和非生物)引起的。结论。首次对俄罗斯联邦不同地区采集的黑藻地上部分样品的HPLC图谱进行了比较。因此,根据植物的区域和生长条件,研究样品的次级代谢产物组成发生了显著变化。所获得的数据可用于合理选择植物的采集位置,目的是对其进行进一步的化学和药理学研究,以开发有前景的候选药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative phytochemical analysis of the aerial parts of Empetrum nigrum L. samples, collected in various regions of the Russian Federation
Introduction. A number of studies have shown that various genetic and environmental factors can affect the biosynthesis and accumulation of secondary metabolites. In particular, it is known that the local geoclimate, seasonal changes, external conditions such as light, temperature, moisture and soil fertility can affect the chemical composition and, as a result, the therapeutic properties of plants used in the pharmaceutical and food industries. Empetrum nigrum L. is a rich source of various pharmacologically active secondary metabolites – chalcones, dihydrochalcones, bibenzyls, 9,10-dihydrophenanthrenes, flavonoids, and proanthocyanidins. In the scientific literature, there is no data on the variation in the chemical composition of E. nigrum depending on the growing area. The obtained data are necessary for a reasonable choice of the collecting location for the plant, with the aim of its further chemical and pharmacological research for the development of promising drug candidates.Aim. To carry out a comparative analysis of secondary metabolites composition in the aerial parts of Empetrum nigrum growing in different regions of the Russian Federation.Materials and methods. Samples collected in three different areas were used to compare HPLC profiles: sample 1 was collected next to SPCPU nursery garden of medicinal plants (Leningrad region, Vsevolozhsky district, Priozerskoe highway, 38 km) in July 2020, sample 2 was collected on the Kola Peninsula, around the Khibiny mountains in July 2020, sample 3 was collected on the Kamchatka Peninsula, next to Khalaktyrsky beach (Pacific Ocean coast) in July 2020. Extracts were analyzed by analytical high performance liquid chromatography (HPLC) using a Prominence LC-20 device (Shimadzu, Japan) equipped with a diode array detector.Results and discussion. As a result of the research, for the first time, a significant variation in the qualitative chemical composition in the aerial parts of Empetrum nigrum growing in different regions of Russian Federation was established. Sample 3, collected on the Kamchatka Peninsula, in comparison with samples 1 and 2, contain the greatest variety of polar secondary metabolites belonging to the classes of flavonoids, tannins, and phenol carboxylic acids, while in the shoots collected in the Leningrad region, the major metabolites were weakly polar compounds belonging to the classes of chalcones, dihydrochalcones, bibenzyls, and 9,10-dihydrophenanthrenes, and in sample 2, collected in the Khibiny mountains, the lowest qualitative content of secondary metabolites was found. This variation may be caused by various environmental factors (biotic and abiotic).Conclusion. For the first time, the comparison of HPLC profiles of aerial part samples of E. nigrum, collected in different regions of the Russia Federation has been carried out. As a result, significant variations in the secondary metabolites composition of the studied samples were established, depending on the regions and growing conditions of the plants. The data obtained can be used for a reasonable choice of the collection location for the plant, with the aim of its further chemical and pharmacological research for the development of promising drug candidates.
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来源期刊
Drug Development and Registration
Drug Development and Registration Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
1.20
自引率
0.00%
发文量
61
审稿时长
8 weeks
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