Calenduloside a fromCalendula officinalis

Vecherko, L. P.; Zinkevich, E. P.; Libizov, N. I.; Ban'kovskii, A. I.

doi:10.1007/bf00564932

Cited by 3 publications

(2 citation statements)

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“…Various terpenoids (Table 2) have been reported from the petroleum ether extract of C.officinalis flowers. They include sitosterols, stigmasterols [9], diesters of diols [10], 3monoesters of taraxasterol, ψ-taraxasterol, lupeol [11,12], erythrodiol, brein [13,14], ursadiol [15], faradiol-3-O-palmitate, faradiol-3-O-myristate, faradiol-3-O-laurate [16], arnidiol-3-O-palmitate, arnidiol-3-O-myristate, arnidiol-3-O-laurate, calenduladiol-3-Opalmitate, calenduladiol-3-O-myristate [17,18], oleanolic acid saponins: calenduloside A-H [19][20][21][22], oleanane triterpene glycoside: calendulaglycoside A, calendulaglycoside A6′-O-n-methyl ester, calendulaglycoside A6'-O-n-butyl ester, calendulaglycoside B, calendulaglycoside B 6′-O-n-butyl ester, calendulaglycoside C, calendulaglycoside C 6′-O-n-methyl ester, calendulaglycoside C 6′-O-n-butyl ester, calenduloside F6′-O-n-butyl ester, calnduloside G6′-O-n-methyl ester [18], glucosides of oleanolic acid (mainly found in roots of grown and senescing plants) I, II, III, VI, VII [23,24], and glucuronides (mainly found in flowers and green parts) F, D, D 2 , C, B and A [25]. One new triterpenic ester of olanane series has been isolated from flowers was cornulacic acid acetate from flowers [26].…”

Section: Terpenoidsmentioning

confidence: 99%

Phytochemical Constituents and Pharmacological Activities of Calendula officinalis Linn (Asteraceae): A Review

Muley¹,

Khadabadi²,

Banarase³

2009

Trop. J. Pharm Res

225

164

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Calendula officinalis Linn. (Asteraceae) is used medicinally in Europe, China and India amongst several places in the world. It is also known as "African marigold" and has been a subject of several chemical and pharmacological studies. It is used in traditional medicine, especially for wound healing, jaundice, blood purification, and as an antispasmodic. Chemical studies have underlined the presence of various classes of compounds, the main being triterpenoids, flavonoids, coumarines, quinones, volatile oil, carotenoids and amino acids. The extract of this plant as well as pure compounds isolated from it, have been demonstrated to possess multiple pharmacological activities such as anti-HIV, cytotoxic, antiinflammatory, hepatoprotective, spasmolytic and spasmogenic, amongst others. In this review, we have explored the phytochemistry and pharmacological activities of C. officinalis in order to collate existing information on this plant as well as highlight its multi-activity properties as a medicinal agent. This is as a result of the worldwide cultivation of the plant and increasing published reports on it.

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Section: Terpenoidsmentioning

confidence: 99%

Phytochemical Constituents and Pharmacological Activities of Calendula officinalis Linn (Asteraceae): A Review

Muley¹,

Khadabadi²,

Banarase³

2009

Trop. J. Pharm Res

225

164

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“…Therefore, the question of the priority of names for compounds 291 , 293 , 295 , 296 , 300 , and 303 remains open; the use of both variants is legitimate. Of note, the variants of names for glucosides C ( 295 ), D ( 296 ), and F ( 303 ), such as calendulosides H, G, and E, respectively, proposed by Vecherko L.P. et al, who isolated these compounds from C. officinalis in 1975–1976 [ 69 , 74 , 76 , 79 , 80 , 81 ], can be considered as synonyms. Calenduloside F ( 299 ) was isolated and characterized by Vecherko L.P. et al (1975) [ 76 ]; however, the final identification of this compound under the name glucoside D 2 was performed by Vidal-Oliver E. (1989) [ 70 ].…”

Section: Chemodiversity Of Calendula Genusmentioning

confidence: 99%

Marigold Metabolites: Diversity and Separation Methods of Calendula Genus Phytochemicals from 1891 to 2022

Оленников

Кащенко

2022

Molecules

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Marigold (Calendula), an important asteraceous genus, has a history of many centuries of therapeutic use in traditional and officinal medicines all over the world. The scientific study of Calendula metabolites was initiated at the end of the 18th century and has been successfully performed for more than a century. The result is an investigation of five species (i.e., C. officinalis, C. arvensis, C. suffruticosa, C. stellata, and C. tripterocarpa) and the discovery of 656 metabolites (i.e., mono-, sesqui-, di-, and triterpenes, phenols, coumarins, hydroxycinnamates, flavonoids, fatty acids, carbohydrates, etc.), which are discussed in this review. The identified compounds were analyzed by various separation techniques as gas chromatography and liquid chromatography which are summarized here. Thus, the genus Calendula is still a high-demand plant-based medicine and a valuable bioactive agent, and research on it will continue for a long time.

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Calendula officinalis

Lim¹

2013

Edible Medicinal and Non-Medicinal Plants

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Calenduloside a fromCalendula officinalis

Cited by 3 publications

References 1 publication

Phytochemical Constituents and Pharmacological Activities of Calendula officinalis Linn (Asteraceae): A Review

Phytochemical Constituents and Pharmacological Activities of Calendula officinalis Linn (Asteraceae): A Review

Marigold Metabolites: Diversity and Separation Methods of Calendula Genus Phytochemicals from 1891 to 2022

Calendula officinalis

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