Background and Aims: Thanks to their high nutritional content and therapeutic effects, bee pollen and bee bread (perga) are used as a food supplement. Studies have shown that bee bread has more bioavailability than bee pollen. This situation has been explained by the fragmentation of the exine layers of pollen in bee bread in some studies. However, there is no clear microscopic study showing that the exine layer is broken. This study investigated for the first time whether the pollen grains in bee bread were fragmented in the exine layers after fermentation, in comparison with the pollen grains in bee pollen samples. Methods: Bee pollen and bee bread samples were collected from the same hives and pollen slides were prepared for exami- nation with light and SEM microscopes. Both of the pollen slides were compared and microscopic photographs were taken. Results: No deformation was observed in the exine layers of the pollen grains in bee bread after fermentation.
Conclusion: In many studies, the higher bioavailability of bee bread has been explained by the deformation at exine structure of the pollen grains. But it has not been supported microscopically in detail with both light and SEM microscopes. Our study’s conclusion was that no deformation was observed in the exine structures of the pollen in bee bread after fermentation.
Hacettepe University
FHD-2018-16744
FHD-2018-16744
Primary Language | English |
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Subjects | Pharmacology and Pharmaceutical Sciences |
Journal Section | Original Article |
Authors | |
Project Number | FHD-2018-16744 |
Publication Date | August 30, 2022 |
Submission Date | May 7, 2021 |
Published in Issue | Year 2022 |