Synthesis and preliminary evaluation of neoglycopolymers carrying multivalent N-glycopeptide units.

In the present study, for the discovery of uncharacterized glycan-binding receptors or lectin-like receptors in plants, we developed neoglycopolymers to which three types of N-glycopeptides are conjugated; the first with plant complex type N-glycan (M3FX), the second with high-mannose type N-glycan (M8), and the third with animal complex type N-glycan (NeuAc2Gal2GN2M3). Three types of Asn-oligosaccharide (Asn-M3FX, Asn-M8, or Asn-NeuAc2Gal2GN2M3) were prepared from storage glycoproteins of Ginkgo biloba seeds, Vigna angularis seeds, and egg yolk glycopeptides from actinase digests of each glycoproteins or glycopeptide. Neoglycopolymers were synthesized such that the α-amino groups of Asn-oligosaccharide were coupled to the carboxyl groups of poly-γ-L-glutamic acid (γ-L-PGA) with 4-(4,6-Dimethoxy-1,3,5-triazin-2-yl)-4-methylmorpholinium chloride n-hydrate (DMT-MM).

Molecular characterization of tomato α1,3/4-fucosidase, a member of glycosyl hydrolase family 29 involved in the degradation of plant complex type N-glycans.

In this study, we identified a gene in tomato that encodes an acidic α-fucosidase (LOC101254568 or Solyc03g006980, α-Fuc'ase S1-1), which may be involved in the turnover of plant complex-type N-glycans. Recombinant α-Fuc'ase S1-1 (rFuc'ase S1-1) was expressed using a baculovirus-insect cell expression system. rFuc'ase Sl-1 is 55 kDa in size and has an optimum pH around 4.