Subcellular localization of core beta(1,2)-xylosylated N-glycoproteins in the green microalgae Chlamydomonas reinhardtii

Abstract

The green microalgae Chlamydomonas reinhardtii synthesizes a N-glycan precursor within the endoplasmic reticulum (ER) that is then transferred to specific asparagine residues of the protein N-glycosylation consensus sites. Maturation of this precursor in the ER and then in the Golgi apparatus results in N-glycans composed of a non-canonical linear Man5GlcNAc2 that is partially O-methylated and carries out one or two xylose residues. One xylose residue was demonstrated to be a core beta(1,2)-xylose. Recently, two xylosyltransferases, named A (XTA) and B (XTB) respectively, were demonstrated to be responsible for the addition of this core beta(1,2)-xylose. Nowadays, even if information is available regarding the protein N-glycosylation pathway and especially the core beta(1,2)-xylosylation in C. reinhardtii, no data regarding the subcellular localization of this subset of glycosylated proteins is available. Therefore, in this work, subcellular immunolocalization of N-glycoproteins bearing the core beta(1,2)-xylose epitope was carried out using an optimized protocol of transmission electron microscopy of CC-5325 and CC-5155 reference strains (wild types) compared to the MXTAxIMXTB double insertional mutant strain in which the core beta(1,2)-xylosylation is fully-lacking. Such a study gives a first cartography of specific glycoepitopes in microalgae and new insights on the distribution of core beta(1,2)-xylosylated glycoproteins in C. reinhardtii organelles.