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Publisher: Altay State University
Journal: Turczaninowia
Languages: English
Types: Article
Subjects: Botany, QK1-989
The composition and content of phenolic compounds in the above-ground plant organs of Siberian Pentaphylloides species were studied. In the case of the genus Pentaphylloides, the following four species are found in the Asian part of Russia: bush cinquefoil (P. fruiticosa), white-naped cinquefoil (P. davurica), manchurian cinquefoil (P. × mandshurica), and small-leaved cinquefoil (P. parvifolia). These species differ considerably from one another with respect to their habitats, habits, and ornamental characteristics. Each of Pentaphylloides species under study had its own phenolic profile: the greatest number of phenolic structure components was found in P. davurica, the smallest one in P. fruticosa. Pentaphylloides fruticosa is characterized by increased accumulation of quercetin glycosides, hybrid P. × mandshurica – that of rhamnetin glycosides and P. davurica – kaempferol glycosides in flowers. Ramnetin (quercetin-7-methyl ether) is found only in the leaves of P. × mandshurica, P. parvifolia and P. davurica from Transbaikalia. Astragalin is not found in the leaves of P. davurica from Primorie. Component 11, and quercitrin astragalin are not found in the leaves of P. × mandshurica. Quercitrin and component 11 is absent in the above-ground plant organs of P. parvifolia, which is a characteristic of the species.
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    • Ганенко Т.В., Верещагин А.Л., Семенов А.А. Химический состав Potentilla fruticosa 3. Флавоноиды и свободные стерины // Химия природных соединений, 1991. - № 2. - С. 285.
    • Ганенко Т.В., Луцкий В.И., Ларин М.Ф., Верещагин А.Л., Семенов А.А. Химический состав Potentilla fruticosa 1. Флавоноиды // Химия природных соединений, 1988. - № 3. - С. 451.
    • Ганенко Т.В., Семенов А.А. Химический состав Potentilla fruticosa. II. Тритерпеноиды // Химия природ. соединений, 1989. - № 6. - С. 856.
    • Николаева И.Г. Полифенольные соединения Pentaphylloides fruticosa и P. parvifolia // Химия природ- ных соединений, 2007. - № 4. - С. 390-391.
    • Федосеева Г.М. Сравнительная характеристика полифенольных соединений лапчатки кустарниковой (Potentilla fruticosa L.) и лапчатки пижмолистной (Potentilla tanacetifolia Willd.) // Тез. докл. межобл. конф. «Изучение препаратов растительного и синтетического происхождения». - Томск, 1978. - Ч. 1. - С. 112-114.
    • Федосеева Г.М. Фенольные соединения Potentilla fruticosa // Химия природ. соединений, 1979. - № 4. - С. 575-576.
    • Храмова Е.П., Комаревцева Е.К. Изменчивость флавоноидного состава листьев Potentilla fruticosa (Rosaceae) разных возрастных состояний в условиях Горного Алтая // Раст. ресурсы, 2008. - Т. 44, вып. 3. - С. 96-102.
    • Шкель Н.М, Храмова Е.П., Кузаков Е.В., Волхонская Т.А., Триль В.М. Фенольные соединения Pentaphylloides fruticosa (L.) O. Schwarz // Химия в интересах устойчивого развития, 1997. - Т.5, № 1. - С. 123-127.
    • Юрьев Д.В., Эллер К.И., Арзамасцев А.П. Анализ флавонолгликозидов в препаратах и БАД на основе экстракта Ginkgo biloba // Фармация, 2003. - № 2. - С. 7-10.
    • Bate-Smith E.C. Chromatography and taxonomy in the Rosaceae with special reference to Potentilla and Prunus // Journal of the Linnean Society of London, Botany, 1961. - Botany. - Vol. 58, № 370. - P. 39-54.
    • Le Men J., Pourrat H. Ursolic acid in the leaves of various Rosaceae // Ann Pharm. Franc., 1955. - Vol. 13. - P. 169-170.
    • Miliauskas G., van Beek T.A., Venskutonis P.R., Linssen, J.P.H., de Waard P., Sudhölter E.J. Antioxidant activity of Potentilla fruticosa // Journal of the Science of Food and Agriculture, 2004. - Vol. 84. - P. 1997-2009.
    • Tomczyk M., Pleszczyńska M., Wiater A. Variation in total polyphenolics contents of aerial parts of Potentilla species and their anticariogenic activity // Molecules, 2010. - Vol. 15. - P. 4639-4651.
    • Van Beek T.A. Chemical analysis of Ginkgo biloba leaves and extracts // Journal of Chromatography A, 2002. - 967. - P. 21-35.
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