Olive or Olea europaea is originated from Mediterranean and cultivated in different regions of the world.
Each part of the plant has its own unique botanical description and gives a lot of benefits, either for
biological or common uses. In this research, the pharmacological properties of O. europaea were studied
via literature reviews. In the laboratory, the extraction of secondary metabolites from the dried leaves of O.
europaea was followed by the chromatographic investigation. The biological uses of O. europaea and
detection of the phenolics from olive leaves are highlighted. Specifically, oleuropein is the targeted
compound worth to be further analyzed.
Introduction: Acalypha indica is commonly referred to as “pokok kucing galak”. It is an herbaceous species that grow along the earth’s equator line, including the wet, temperate and tropical regions. Domestic cats experience the effect of this plant by reacting very favorably to the root. The first compilation of the ethnopharmacology and phytochemistry of the Acalypha plants was published. This genus is the fourth largest genus of the Euphorbiaceae family, with about 500 species. However, the review only represents about one third of the species from the Acalypha genus. Methods: Hence, this study is performed to obtain updates on the biochemistry of this plant, via literature search. Results: From the articles, almost every part of the plant, including the leaves, stems and roots, are used as traditional remedies. Local people consume the plant for therapeutic purposes such as anthelminthic, anti-ulcer, anti-bacteria, anti-microbial and wound healing. In homeopathy practice, it is used for asthma and bronchitis. Nevertheless,
there is still a potential risk of using A. indica. It was reported that this traditional medicine could induce Intravascular haemolysis in patients with a glucose-6-phosphate-dehydrogenase (G6PD) deficiency. Clinical evaluations of Acalypha extract could be utilized to justify the ethnomedicinal claims and for the safety of its therapeutic applications. Meanwhile, there is an increase in the phytochemical and chromatographic experiments of A. indica that could introduce the extract’s role in pharmaceutical, nutraceutical, zoology and veterinary fields. It contains secondary metabolites, including dihydroactinidiolide; a terpenoid, alkaloids, flavonoids and steroids, for example, brassicasterol. Conclusion: The finding of this review concludes that Acalypha is a natural source, worth to be further investigated. It is hoped that new biologically active constituents could be discovered, since only few Acalypha species were comprehensively studied.
In this study, the unprecedented extraction of the Vitex pouch was performed. The compounds from
methanolic and chloroform extracts were isolated by using thin layer chromatography (TLC). The
compound of interest was investigated by using 1H-Nuclear Magnetic Resonance (NMR, 500 MHz)
spectroscopy. From the NMR spectral examination, the compound from the methanolic extract was
suggested as glucononitol. Indeed, there are some parameters that could enhance the attainment of this
research, which include high performance liquid chromatographic supplies. Nevertheless, more
information and understanding on the pharmaceutical and chemical analysis of the Vitex species were
obtained. To sum up, it is anticipated that incoming research with advanced technology for this
natural product could be explored in the future.