Author:
Alsarhan Ali,Bani Salman Katreen,Olimat Suleiman
Abstract
Recent technological developments and methodological advances in GC-MS have become a common tool for investigating the quantity, quality, and chemical diversity of plant secondary metabolites. The flower parts of Asphodelus aestivus Brot. were studied, leading to the isolation and identification of various secondary metabolites, primarily essential oils: alcohol (26.9%); aldehyde (23%); alkanes, acetate derivatives, and aliphatic derivatives (19.2%); ketones (7.7%); and epoxides (3.8%). The principal oil components were 18.79% vetocitral C (trans), 17.27% hexadecyl acetate, 14.5% hexanal (2E), and 9.6% sabinene hydrate (trans). The identification of oil components was performed by matching their spectra with the mass spectra data bank.
Reference17 articles.
1. Al-Eisawi D: Flora of Jordan Checklist, Revised. In Book Flora of Jordan Checklist, Revised (Editor ed.^eds.). City: The University of Jordan Press, Amman, Jordan. 2013.
2. Ghoneim MM, Ma G, El-Hela AA, Mohammad A-EI, Kottob S, El-Ghaly S, Cutler SJ, Ross SA: Biologically active secondary metabolites from Asphodelus microcarpus. Natural product communications. 2013; 8:1934578X1300800822.
3. Malmir M, Serrano R, Canica M, Silva-Lima B, Silva O: A comprehensive review on the medicinal plants from the genus Asphodelus. Plants. 2018; 7:20.
4. Alavi M, Hamblin MR, Martinez F, Kennedy JF, Khan H: Synergistic combinations of metal, metal oxide, or metalloid nanoparticles plus antibiotics against resistant and non-resistant bacteria. Micro Nano Bio Aspects. 2022; 1:1-9.
5. Alavi M, Rai M: Antisense RNA, the modified CRISPR-Cas9, and metal/metal oxide nanoparticles to inactivate pathogenic bacteria. Cellular, Molecular and Biomedical Reports. 2021; 1:52-59.
Cited by
2 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献