The role of microencapsulation in maintaining biological activity of royal jelly: comparison with biological activity and bioaccessibility of microencapsulated, fresh and lyophilized forms during storage

Recent research directions on functional royal jelly: highlights prospects in food, nutraceutical, and pharmacological industries

The food and pharmaceutical industries have utilized royal jelly, an alternative medicinal food, as a natural pharmaceutical product since ancient times. Royal jelly has a unique remarkable composition containing lipids, proteins, carbohydrates, vitamins, minerals, hormones, and phenolic compounds. The rapidly expanding functional food market has coincided with the increasing consumer demand for royal jelly. Over the past two decades, royal jelly, a rich source of certain bioactive components, has been used by humans as a functional and nutritious food due to recent studies of the effect of royal jelly in underlying pathogenic processes in a variety of animal models. Scientific evidence has accumulated supporting a wide variety of health-promoting effects from the intake of royal jelly that supports cardiovascular health, immune and antioxidant function, wound healing, blood lipid, and glucose control in addition to antibacterial and antihypertensive effects. The main bioactive ingredients are Major Royal Jelly Proteins (MRJPs), essential oils, fatty acids, peptides, and phenolics, which are thought to have a significant role in the development of honeybee queens. The health-endorsing qualities of royal jelly make it a significant functional ingredient in the food, and cosmetic industry. Apisin is one of the main proteins in royal jelly that has antibacterial properties. Other bioactive ingredients of royal jelly that have multifunctional health-promoting properties include defensin-1, royalisin, apisimin, apidaecin, jelleins, royalactin and 10-hydroxy-2-decenoic acid (10HDA) in epigenetic diseases. This review highlights the important role that royal jelly plays as an agent in various fields of medicine, paying special attention to its biological features. Additionally, we discuss royal jelly's composition as a possible therapeutic for vital natural sources of bioactive substances.

Comprehensive Study of the Physicochemical Properties of Royal Jelly from Various Regions of Türkiye

This study analysed some physicochemical and quality parameters of 176 royal jelly (RJ) samples from different regions of Türkiye, collected over different years and seasons. According to the obtained results, the moisture percentage varied between 47.36 % and 69.58 %, with no statistically significant differences seen across various seasons and areas (p>0.05). The average value of 10-hydroxy-2-decenoic acid (10-HDA), which varies according to factors such as season, region, and year, was determined to be 2.32 %. It was also seen that this value was close to the international standard. The values of total acidity ranged from 28-58 mL 1 N NaOH/100 g. Furthermore, statistical significance (p<0.001) was observed for the year-region interaction in relation to 10-HDA and total acidity. The pH measurement results for all samples confirmed the acidic nature of the samples and resulted in a range between 3.45 and 3.80. And the pH variability was also found to be statistically significant for years (p=0.002) and regions (p=0.011). Finally, the correlation analysis between moisture (%), 10-HDA (%), total acidity, and pH revealed no statistically significant or strong differences. This comprehensive study, supported by statistical analyses, is thought to be a useful reference for future research on RJ.