Abstract
Asparagine (N)-linked protein glycosylation is a ubiquitous co- and post-translational modification which can alter the biological function of proteins and consequently affects the development, growth, and physiology of organisms. Despite an increasing knowledge of N-glycan biosynthesis and processing, we still understand very little about the biological function of individual N-glycan structures in plants. In particular, the N-glycan-processing steps mediated by Golgi-resident enzymes create a structurally diverse set of protein-linked carbohydrate structures. Some of these complex N-glycan modifications like the presence of β1,2-xylose, core α1,3-fucose or the Lewis a-epitope are characteristic for plants and are evolutionary highly conserved. In mammals, complex N-glycans are involved in different cellular processes including molecular recognition and signaling events. In contrast, the complex N-glycan function is still largely unknown in plants. Here, in this short review, I focus on important recent developments and discuss their implications for future research in plant glycobiology and plant biotechnology.
Highlights
N -Glycosylation is a major co- and post-translational modification of proteins in all eukaryotes
Asparagine (N)-linked protein glycosylation is a ubiquitous co- and post-translational modification which can alter the biological function of proteins and affects the development, growth, and physiology of organisms
N -Glycosylation is initiated in the ER by transfer of a preassembled oligosaccharide (Glc3Man9GlcNAc2) precursor to asparagine residues within the sequence motif Asn– X–Ser/Thr (X represents any amino acid except proline) on nascent polypeptide chains
Summary
N -Glycosylation is a major co- and post-translational modification of proteins in all eukaryotes. The Lewis a-type structures seem ubiquitous in the plant kingdom (Fitchette et al, 1999; Wilson et al, 2001), but they are only present on a small number of still widely unknown glycoproteins and the biological function of these large complex N -glycans remains to be shown.
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