Sustainable valorization of mango peel waste by extracting bioactive compounds for functional applications
Amin, Ibrahim;
Abstract
Mango peel waste is a rich source of bioactive compounds with potential for sustainable valorization.
In this study, coarse and fine mango peel powders were subjected to ethanolic and supercritical CO₂
extraction. The resulting extracts were evaluated for phenolic and flavonoid content, antioxidant
activity (DPPH and FRAP), as well as antibacterial, antiadhesion, and antibiofilm properties against six
multidrug-resistant foodborne pathogens. The ethanolic extract from fine mango peel powder (EMPF)
exhibited the highest phenolic (2488 µg GA eq/mL) and flavonoid (1282 µg rutin eq/mL) content, with
quercetin (63.75 mg/L) and p-hydroxybenzoic acid (28.68 mg/L) as major compounds, and showed
strong antioxidant activity (RSA = 40%, FRAP = 0.804). To enhance stability and bioactivity, EMPF was
nanoencapsulated in calcium alginate (N-EMPF), yielding a favorable particle size (~ 233 nm), zeta
potential (+ 23.6 mV), and encapsulation efficiency (56%). Nanoencapsulation improved antioxidant
activity (RSA = 49%, TFC = 1566 µg rutin eq/mL) and significantly enhanced antimicrobial, antiadhesion,
and antibiofilm effects, while maintaining low cytotoxicity in human oral epithelial cells (IC₅₀ > 100 µg/
mL; viability > 70%). These findings demonstrate that nanoencapsulated ethanolic mango peel extracts
represent safe, multifunctional, and sustainable sources of antioxidant, antibacterial, and antibiofilm
agents with promising potential for biotechnological applications.
In this study, coarse and fine mango peel powders were subjected to ethanolic and supercritical CO₂
extraction. The resulting extracts were evaluated for phenolic and flavonoid content, antioxidant
activity (DPPH and FRAP), as well as antibacterial, antiadhesion, and antibiofilm properties against six
multidrug-resistant foodborne pathogens. The ethanolic extract from fine mango peel powder (EMPF)
exhibited the highest phenolic (2488 µg GA eq/mL) and flavonoid (1282 µg rutin eq/mL) content, with
quercetin (63.75 mg/L) and p-hydroxybenzoic acid (28.68 mg/L) as major compounds, and showed
strong antioxidant activity (RSA = 40%, FRAP = 0.804). To enhance stability and bioactivity, EMPF was
nanoencapsulated in calcium alginate (N-EMPF), yielding a favorable particle size (~ 233 nm), zeta
potential (+ 23.6 mV), and encapsulation efficiency (56%). Nanoencapsulation improved antioxidant
activity (RSA = 49%, TFC = 1566 µg rutin eq/mL) and significantly enhanced antimicrobial, antiadhesion,
and antibiofilm effects, while maintaining low cytotoxicity in human oral epithelial cells (IC₅₀ > 100 µg/
mL; viability > 70%). These findings demonstrate that nanoencapsulated ethanolic mango peel extracts
represent safe, multifunctional, and sustainable sources of antioxidant, antibacterial, and antibiofilm
agents with promising potential for biotechnological applications.
Other data
| Title | Sustainable valorization of mango peel waste by extracting bioactive compounds for functional applications | Authors | Amin, Ibrahim | Keywords | Mango peel waste;Ethanolic extraction;Supercritical CO₂ extraction;Nanoencapsulation;Multidrug-resistant (MDR) bacteria;Antioxidant;Antibacterials;Antibiofilm | Issue Date | 7-Dec-2025 | Journal | Scientific Reports | DOI | 10.1038/s41598-025-28141-z |
Attached Files
| File | Description | Size | Format | Existing users please Login |
|---|---|---|---|---|
| s41598-025-28141-z.pdf | 3 MB | Adobe PDF | Request a copy |
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