RESUMO
Propolis is a beehive product produced from honeybees by mixing ß-glycosidase enzyme and beeswax with exudate collected from plant resins. The main goal of this study was to investigate the phytochemical potential and GC-MS profiling of the main constituents of propolis. The antioxidant activity was assessed by using 2,2-diphenyl-1-picrylhydrazyl (DPPH) free radical scavenging assay, total phenolic content and total flavonoid content were analysed by Folin-Ciocalteu reagent method and aluminium chloride method respectively. Methanolic extract exhibited highest antioxidant activities, ethanolic extract had the highest total phenolic content, and maximum amount of flavonoid was observed in the chloroform extract. GC-MS analysis revealed the presence of flavonoids, fatty acids and phenolic compounds. Results revealed that propolis from Derra Bassi can be used as natural antioxidant, also extracting solvents had a significant impact on the phytochemical activities and with its standardisation can be used for prevention of diseases related with free radicals.
RESUMO
Metal/metal oxide nano systems (M-NSs) of tunable and manipulative properties are emerging suitable for cancer management via immunity development, early-stage diagnosis, nanotherapeutics, and targeted drug delivery systems. However, noticeable toxicity, off-targeted actions, lacking biocompatibility, and being expensive limit their acceptability. Moreover, involving high energy (top-down routes) and hazardous chemicals (bottom-up chemical routes) is altering human cycle. To manage such challenges, biomass (plants, microbes, animals) and green chemistry-based M-NSs due to scalability, affordability, are cellular, tissue, and organ acceptability are emerging as desired biogenic M-NSs for cancer management with enhanced features. The state-of-art and perspective of green metal/metal oxide nano systems (GM-NSs) as an efficient anti-cancer agent including, imaging, immunity building elements, site-specific drug delivery, and therapeutics developments are highlighted in this review critically. It is expected that this report will serve as guideline for design and develop high-performance GM-NSs for establishing them as next-generation anti-cancer agent capable to manage cancer in personalized manner.