Project description:We provide a detailed analysis of miRNA in the royal jelly nanovesicles.

Project description:Royal jelly has long been recognized as health food, with a high content of proteins. These proteins play important roles in honeybee caste and human health, but the proteomic analysis of those low-abundance proteins in royal jelly is always a challenge. Herein, we used the Osboren classification method to separate the royal jelly proteins of Xinjiang black bees, a sub-species of Apis mellifera mellifera, into various fractions. The globulin, ethanol-soluble protein and glutelin fractions were further separated by SDS-PAGE, and proteomic analysis was carried out by LC-MS/MS and searching against the NCBI database. A total of 63 proteins with definitive names were identified, in which 41 proteins were identified for the first time in royal jelly. The Osboren classification method combined with one-dimensional gel electrophoresis based proteomic analysis allows the identification of low-abundance proteins, and greatly extends the knowledge about the components and functions of royal jelly proteins.

Project description:SWATH-MS was used to compare relative protein quantities of bee origin in manuka and clover honey to royal jelly.

Project description:Characterization of naturally-occurring RNAs (up to 200nt) in the honey bee worker and royal jelly

Project description:Transcriptomics of Royal Jelly Composition in Geotrigona acapulconis and apis mellifera

Project description:MRJP-3 is an RNA binding protein that binds both double- and single-stranded RNA in vitro. To test whether i) MRJP-3 binds RNA in its natural environment, the royal jelly (RJ) and ii) to characterize its RJ RNA partners; a pull down followed by RNA-seq system was developed. MRJP-3 bound RNA was compared to total RJ RNA extracted from the same hive. To establish the system, we first incubated biotinylated MRJP-3, or biotinylated BSA in RJ and pulled the proteins out with strepavidin coated magnetic beads followed by RNA extraction and bioanalyzer profiling. MRJP-3 pull out was enriched for RNA compare to the BSA and just beads controls. The RNA population pulled down with MRJP-3 has similar profile to the total RJ RNA, further demonstrating the MRJP-3 has no affinity to a certain RNA species.

Project description:Vascular smooth muscle cells (VSMCs) are a major cell type of the arterial wall and their functionality is associated with blood pressure regulation. Although royal jelly (RJ) has reported effects on anti-hypertension, the mechanism of blood pressure regulation by major royal jelly protein 1 (MRJP1), the most abundant RJ protein, is still unknown. Therefore, mrjp1 gene was delivered into mouse VSMCs to investigate how MRJP1 influences the VSMC functionality by functional and proteomic analysis.The data here are the proteomic analysis of triplicated control and MRJP1 expressing VSMCs.

Project description:Functional assessment of Royal jelly on honeybee larvae development and

Project description:RNA-seq of total royal jelly and MRJP-3-bound RNA

Project description:Royal Jelly (RJ) is a product made by honey bee workers and is required for queen differentiation and accompanying changes in queen body size, development time, lifespan and reproductive output relative to workers. Previous studies have reported similar changes in Drosophila melanogaster in response to RJ. Here, we quantified viability, development time, body size, productivity, lifespan and genome wide transcript abundance of D. melanogaster reared on standard culture medium supplemented with increasing concentrations of RJ. We found that lower concentrations of RJ do induce significant differences in body size in both sexes; higher concentrations reduce size, increase mortality, shorten lifespan and reduce productivity. Increased concentrations of RJ also consistently lengthened development time in both sexes. RJ is associated with changes in expression of 1,581 probe sets assessed using Affymetrix Drosophila 2.0 microarrays, which were enriched for genes associated with metabolism and amino acid degradation. The transcriptional changes are consistent with alterations in cellular processes to cope with excess nutrients provided by RJ, including biosynthesis and detoxification, which might contribute to accelerated senescence and reduced lifespan.