Glucose oxidase as an important yet overlooked factor determining the antibacterial activity of bee pollen and bee bread
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[1] P. Hanus,et al. The Profile of Polyphenolic Compounds, Contents of Total Phenolics and Flavonoids, and Antioxidant and Antimicrobial Properties of Bee Products , 2022, Molecules.
[2] Lifeng Meng,et al. A Combined Proteomic and Metabolomic Strategy for Allergens Characterization in Natural and Fermented Brassica napus Bee Pollen , 2022, Frontiers in Nutrition.
[3] P. Nisianakis,et al. Occurrence and human health risk assessment of mineral elements and pesticides residues in bee pollen , 2022, Food and Chemical Toxicology.
[4] Haile Ma,et al. Processing Technologies for Bee Products: An Overview of Recent Developments and Perspectives , 2021, Frontiers in Nutrition.
[5] D. Mossialos,et al. Honey antibacterial activity: A neglected aspect of honey quality assurance as functional food , 2021, Trends in Food Science & Technology.
[6] V. Čeksterytė,et al. Comparative proteomic profile in bee- and manually-collected Taraxacum officinale pollen , 2021, Journal of Apicultural Research.
[7] M. Mohamed,et al. Chemical Profile, Antioxidant Properties and Antimicrobial Activities of Malaysian Heterotrigona itama Bee Bread , 2021, Molecules.
[8] R. Brodschneider,et al. Effects of the Carbohydrate Sources Nectar, Sucrose and Invert Sugar on Antibacterial Activity of Honey and Bee-Processed Syrups , 2021, Antibiotics.
[9] Yaoxing Chen,et al. Active components and biological functions of royal jelly , 2021, Journal of Functional Foods.
[10] R. Worobo,et al. Bee Pollen and Bee Bread as a Source of Bacteria Producing Antimicrobials , 2021, Antibiotics.
[11] G. Amoutzias,et al. Biological Properties of Bee Bread Collected from Apiaries Located across Greece , 2021, Antibiotics.
[12] Meirong Ying,et al. Quantification of major royal jelly proteins using ultra performance liquid chromatography tandem triple quadrupole mass spectrometry and application in honey authenticity , 2021 .
[13] Volkan Aylanc,et al. From the hive to the table: Nutrition value, digestibility and bioavailability of the dietary phytochemicals present in the bee pollen and bee bread , 2021 .
[14] R. Worobo,et al. Bee Bread Exhibits Higher Antimicrobial Potential Compared to Bee Pollen , 2021, Antibiotics.
[15] G. Amoutzias,et al. Antimicrobial Activity of Bee-Collected Pollen and Beebread: State of the Art and Future Perspectives , 2020, Antibiotics.
[16] M. Keskin,et al. Effects of drying techniques on chemical composition and volatile constituents of bee pollen , 2020 .
[17] R. Duval,et al. Bacteriocins, Antimicrobial Peptides from Bacterial Origin: Overview of Their Biology and Their Impact against Multidrug-Resistant Bacteria , 2020, Microorganisms.
[18] V. Kaškonienė,et al. Antimicrobial and antioxidant activities of natural and fermented bee pollen , 2020 .
[19] K. Sorkun,et al. Bee bread and bee pollen of different plant sources: determination of phenolic content, antioxidant activity, fatty acid and element profiles , 2020, Journal of Food Measurement and Characterization.
[20] M. Farag,et al. Recent insights into chemical and pharmacological studies of bee bread , 2020, Trends in Food Science & Technology.
[21] E. Topal,et al. Bee Collected Pollen and Bee Bread: Bioactive Constituents and Health Benefits , 2019, Antioxidants.
[22] B. Lyoussi,et al. Bee bread as a functional product: Chemical composition and bioactive properties , 2019, LWT.
[23] V. Čeksterytė,et al. Evaluation of proteome profiles of Salix spp. pollen and relationship between glucose oxidase activity and pollen content in willow honey , 2019, BALTIC FORESTRY.
[24] J. Klaudiny,et al. Antibacterial Activity of Different Blossom Honeys: New Findings , 2019, Molecules.
[25] G. Montenegro,et al. Honeybee Pollen Load: Phenolic Composition and Antimicrobial Activity and Antioxidant Capacity. , 2019, Journal of natural products.
[26] V. Majtán,et al. Phytochemicals-mediated production of hydrogen peroxide is crucial for high antibacterial activity of honeydew honey , 2018, Scientific Reports.
[27] C. Zuluaga-Domínguez,et al. Influence of drying-related operations on microbiological, structural and physicochemical aspects for processing of bee-pollen , 2018 .
[28] Hong Zhang,et al. Quantification of Major Royal Jelly Protein 1 in Fresh Royal Jelly by Ultraperformance Liquid Chromatography-Tandem Mass Spectrometry. , 2018, Journal of agricultural and food chemistry.
[29] N. Kelleher,et al. Characterizing the Structure and Oligomerization of Major Royal Jelly Protein 1 (MRJP1) by Mass Spectrometry and Complementary Biophysical Tools. , 2017, Biochemistry.
[30] B. Denisow,et al. Biological and therapeutic properties of bee pollen: a review. , 2016, Journal of the science of food and agriculture.
[31] J. Majtán,et al. The MRJP1 honey glycoprotein does not contribute to the overall antibacterial activity of natural honey , 2016, European Food Research and Technology.
[32] J. Klaudiny,et al. Honeybee glucose oxidase—its expression in honeybee workers and comparative analyses of its content and H2O2-mediated antibacterial activity in natural honeys , 2014, Naturwissenschaften.
[33] D. Sedlak,et al. Kinetics and efficiency of H2O2 activation by iron-containing minerals and aquifer materials. , 2012, Water research.
[34] K. Brudzynski,et al. Mechanism of Honey Bacteriostatic Action Against MRSA and VRE Involves Hydroxyl Radicals Generated from Honey’s Hydrogen Peroxide , 2012, Front. Microbio..
[35] M. Faid,et al. The Antibacterial Activity of Moroccan Bee Bread and Bee-Pollen (Fresh and Dried) against Pathogenic Bacteria , 2011 .
[36] V. Isidorov,et al. Gas chromatographic-mass spectrometric investigation of the chemical composition of beebread , 2009 .
[37] M. Campos,et al. Pollen composition and standardisation of analytical methods , 2008 .
[38] H. Terzolo,et al. Bacteriocin from Honeybee Beebread Enterococcusavium, Active against Listeriamonocytogenes , 2005, Applied and Environmental Microbiology.
[39] A. Kot,et al. Pollen and bee bread as new health-oriented products: A review , 2018 .