Sterol, Glycerol Ester, and Thiophene Constituents from the Twigs of Pluchea indica L. of Vietnam

Phan Minh Giang, Van Thi Thanh Huyen, Do Thi Viet Huong

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Published Jun 22, 2018
DOI: https://doi.org/10.25073/2588-1140/vnunst.4749

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GIANG, Phan Minh; HUYEN, Van Thi Thanh; HUONG, Do Thi Viet. Sterol, Glycerol Ester, and Thiophene Constituents from the Twigs of Pluchea indica L. of Vietnam. VNU Journal of Science: Natural Sciences and Technology, [S.l.], v. 34, n. 2, june 2018. ISSN 2588-1140. Available at: <https://js.vnu.edu.vn/NST/article/view/4749>. Date accessed: 26 apr. 2024. doi: https://doi.org/10.25073/2588-1140/vnunst.4749.
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Issue
Vol 34 No 2
Section
Review Articles

Main Article Content

Abstract

The first study of the twigs of Pluchea indica L. in Vietnam isolated stigmasterol, 1- eicosanoyl glycerol, a long-chain saturated alcohol, 2-(prop-1-ynyl)-5-(5,6-dihydroxyhexa-1,3- diynyl)-thiophene, stigmasterol 3-O-β-D-glucopyranoside, and β-sitosterol 3-O-β-D-glucopyranoside. Their structures were determined on the basis of MS and NMR spectroscopic data.


Keywords


Pluchea indica, Asteraceae, sterol, glycerol ester, thiophene


References


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[3] Buapool D., Mongkol N., Chantimal J., Roytrakul S., Srisook E., Srisook K. (2013). J. Ethnophamacol., 146, 495-504.
[4] Noridayu A. R., Hii Y. F., Faridah A., Khozirah S., Lajis N. (2011). Int. Food Res. J., 18, 925-929.
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[7] Uchiyama T., Miyase T., Ueno A., Usmanghani K. (1991). Phytochemistry, 30, 655-657.
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[10] Gomes A., Saha A., Chatterjee I., Chakravarty A. K. (2007). Phytomedicine, 14, 637-643.
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Keywords: Pluchea indica, Asteraceae, sterol, glycerol ester, thiophene

References

[1] Đỗ Tất Lợi (2014), Những cây thuốc và vị thuốc Việt Nam, Nhà xuất bản Hồng Đức, Hà Nội.
[2] Qiu Y. Q., Qi S. H., Zhang S., Tian X. P., Xiao Z. H., Li M. Y., Li Q. X. (2008). Heterocycles, 75, 1757-1764.
[3] Buapool D., Mongkol N., Chantimal J., Roytrakul S., Srisook E., Srisook K. (2013). J. Ethnophamacol., 146, 495-504.
[4] Noridayu A. R., Hii Y. F., Faridah A., Khozirah S., Lajis N. (2011). Int. Food Res. J., 18, 925-929.
[5] Cho J. J., Cho C. L., Kao C. L., Chen C. M., Tseng C. N., Lee Y. Z., Liao L. J., Hong Y. R. (2012). BMC Complement. Altern. Med., 12, 265.
[6] Kao C. L., Cho J., Lee Y. Z., Cheng Y. B., Chien C. Y., Hwang C. F., Hong Y. R., Tseng C. N., Cho C. L. (2015). Molecules, 20, 11508-11523.
[7] Uchiyama T., Miyase T., Ueno A., Usmanghani K. (1991). Phytochemistry, 30, 655-657.
[8] Hussain H., Al-Harrasi A., Abbas G., Rehman N. U., Mabood F., Ahmed I., Saleem M., van Ree T., Green I. R., Anwar S., Badshah A., Shah A., Ali I. (2013). Chem. Biodivers, 10, 1944-1971.
[9] Ohtsuki T., Yokosawa E., Koyano T., Preeprame S., Kowithayakorn T., Sakai S., Toida T., Ishibashi M. (2008). Phytother. Res., 22, 264-266.
[10] Gomes A., Saha A., Chatterjee I., Chakravarty A. K. (2007). Phytomedicine, 14, 637-643.
[11] Biswas R., Dutta P. K., Achari B., Bandyopadhyay D., Mishra M., Pramanik K. C., Chatterjee T. K. (2007). Phytomedicine, 14, 534-537.
[12] https://pubchem.ncbi.nlm.nih.gov/compound.
[13] Biswas R., Dasgupta A., Mitra A., Roy S. K., Dutta P. K., Achari B., Dastidar S. G., Chatterjee T. K. (2005). Eur. Bull. Drug Res. 13, 63-70.
[14] Kaur N., Chaudhary J., Jain A., Kishore L. (2011). IJPSR, 2, 2259-2265.