Figure - available via license: Creative Commons Attribution 4.0 International
Content may be subject to copyright.
Source publication
Background
The phytochemical constitution and biological capabilities of Fragaria ananassa 's calyx have not been extensively investigated before. Consequently, the research study pointed for characterization, isolation, and identification of the sterols and flavonoids as the major active constituents in the calyx of F. ananassa and evaluation for...
Contexts in source publication
Context 1
... analysis was performed to pinpoint the lipoidal constituents in the non-polar extract of F. ananassa calyx. The identified compounds are illustrated in Table 1. Twenty-six compounds were identified signifying 83.08%, and constituting of 8 hydrocarbons (27.45%), 7 fatty alcohols (31.51%), 1 ketone (1.57%), 3 fatty acids (14.77%), 3 fatty acid esters (4.97%), and 4 sterols (2.81%). ...Citations
Solanum rostratum Dunal, belongs to the Solanaceae family and has drawn attention for its intricate interplay of invasiveness, phytochemical composition, and potential bioactivities. Notably invasive, S. rostratum employs adaptive mechanisms during senescence, featuring thorn formation on leaves, fruits, and stems seed self-propulsion, and resistance to drought. This adaptability has led to its proliferation in countries such as China, Canada, and Australia, extending beyond its Mexican origin. Despite its invasive historical reputation, recent studies unveil a rich array of phytochemicals in S. rostratum , suggesting untapped economic potential due to under-exploration. This review delves into exploring the potential uses of S. rostratum while elucidating the bioactive compounds associated with diverse identified bioactivities. In terms of phytochemistry, S. rostratum reveals an abundance of various bioactive compounds, including alkaloids, flavonoids, phenols, saponins, and glycosides. These compounds confer a range of beneficial bioactivities, encompassing antioxidant, antifungal, anticarcinogenic, anti-inflammatory, phytotoxic, and pesticidal properties. This positions S. rostratum as a reservoir of valuable chemical constituents with potential applications, particularly in medicine and agriculture. The review provides comprehensive insights into the phytochemistry, bioactivities, and bioactivity-guided fractionation of S. rostratum . In this review, we focus on the potential utilization of S. rostratum by emphasizing its phytochemical profile, which holds promise for diverse applications. This review is the first that advocates for further exploration and research to unlock the plant’s full potential for both economic and environmental benefit.
