BMC Genomics, 2014 Feb 16;15(1):135
BACKGROUND:
Royal jelly (RJ) is a proteinaceous secretion produced from
the hypopharyngeal and mandibular glands of nurse bees. It plays vital roles in
honeybee biology and in the improvement of human health. However, some proteins
remain unknown in RJ, and mapping N-glycosylation modification sites on RJ
proteins demands further investigation. We used two different liquid
chromatography-tandem mass spectrometry techniques, complementary
N-glycopeptide enrichment strategies, and bioinformatic approaches to gain a
better understanding of novel and glycosylated proteins in RJ.
RESULTS:
A total of 25 N-glycosylated proteins, carrying 53
N-glycosylation sites, were identified in RJ proteins, of which 42 N-linked
glycosylation sites were mapped as novel on RJ proteins. Most of the
glycosylated proteins were related to metabolic activities and health
improvement. The 13 newly identified proteins were also mainly associated with
metabolic processes and health improvement activities.
CONCLUSION:
Our in-depth, large-scale mapping of novel glycosylation
sites represents a crucial step toward systematically revealing the
functionality of N-glycosylated RJ proteins, and is potentially useful for
producing a protein with desirable pharmacokinetic and biological activity
using a genetic engineering approach. The newly-identified proteins
significantly extend the proteome coverage of RJ. These findings contribute
vital and new knowledge to our understanding of the innate biochemical nature
of RJ at both the proteome and glycoproteome levels.
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