Enhancing Antioxidant and Antimicrobial Activities in Bee-Collected Pollen through Solid-State Fermentation: A Comparative Analysis of Bioactive Compounds

The present study investigates the impact of solid-state fermentation on bee-collected pollen using a consortium of , , and . Another aim is to compare the nutritional and bioactive properties of natural versus fermented pollen, focusing on macronutrient composition, pH, acidity, lactic acid content...

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Bibliographic Details
Published in:Antioxidants 2024-02, Vol.13 (3), p.292
Main Authors: Urcan, Adriana Cristina, Criste, Adriana Dalila, Dezmirean, Daniel Severus, Bobiș, Otilia, Bonta, Victorița, Burtescu, Ramona Flavia, Olah, Neli-Kinga, Cornea-Cipcigan, Mihaiela, Mărgăoan, Rodica
Format: Article
Language:English
Subjects:
Acidity
Amino acids
Analysis
antioxidant activity
Antioxidants
Bacteria
bee-collected pollen
Bioactive compounds
Bioavailability
Comparative analysis
Ellagic acid
Fermentation
Fermented food
Flavonoids
Food
Functional foods
Functional foods & nutraceuticals
Gram-negative bacteria
Gram-positive bacteria
Isoflavones
Kaempferol
lactic acid bacteria
Nutrients
Phenolic compounds
Pollen
Polyphenols
Probiotics
Proteins
Proteolysis
Quercetin
Solid state fermentation
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Summary:The present study investigates the impact of solid-state fermentation on bee-collected pollen using a consortium of , , and . Another aim is to compare the nutritional and bioactive properties of natural versus fermented pollen, focusing on macronutrient composition, pH, acidity, lactic acid content, and profiles of polyphenolics and flavonoids. Our results indicated significant enhancements in the contents of amino acids, suggesting improved protein content, alongside increases in polyphenolic and flavonoid contents post-fermentation. According to the heat mapping and cluster analysis, increased antioxidant and antimicrobial activities against Gram-positive and Gram-negative bacteria, particularly , were observed in the fermented bee-collected pollen samples, which may have been due to the accumulation of phenolic compounds (e.g., ellagic acid, kaempferol, quercetin, and quercetin-3- -rutinoside). Furthermore, significant positive correlations of the fermented bee-collected pollen samples with non-essential amino acids were recorded compared with the unfermented bee-collected pollen samples, which may have been due to the fermentation process and the conversion of proteins into free amino acids via proteolysis. Future research could explore the underlying mechanisms, the scalability of fermentation, its application in functional foods, and the health benefits of fermented bee-collected pollen in human diets.
ISSN:2076-3921
2076-3921
DOI:10.3390/antiox13030292