Like the Eukarya and Bacteria, the Archaea also perform N glycosylation. Using the haloarchaeon Haloferax volcanii as a model system, a series of Agl proteins involved in the archaeal version of this posttranslational modification has been identified. In the present study, the participation of HVO_1517 in N glycosylation was considered, given its homology to a known component of the eukaryal N-glycosylation pathway and because of the genomic proximity of HVO_1517 to agl genes encoding known elements of the H. volcanii N-glycosylation process. By combining the deletion of HVO_1517 with mass spectrometric analysis of both dolichol phosphate monosaccharide-charged carriers and the S-layer glycoprotein, evidence was obtained showing the participation of HVO_1517, renamed AglJ, in adding the first hexose of the N-linked pentasaccharide decorating this reporter glycoprotein. The deletion of aglJ, however, did not fully prevent the attachment of a hexose residue to the S-layer glycoprotein. Moreover, in the absence of AglJ, the level of only one of the three monosaccharide-charged dolichol phosphate carriers detected in the cell was reduced. Nonetheless, in cells lacking AglJ, no further sugar subunits were added to the remaining monosaccharide-charged dolichol phosphate carriers or to the monosaccharide-modified S-layer glycoprotein, pointing to the importance of the sugar added through the actions of AglJ for proper N glycosylation. Finally, while aglJ can be deleted, H. volcanii surface layer integrity is compromised in the absence of the encoded protein.N glycosylation is a posttranslational modification of proteins in all three domains of life. However, in contrast to our relatively advanced description of the eukaryal and bacterial N-glycosylation pathways (12, 24, 26), many questions regarding the parallel process in the Archaea remain. With the identification of a series of agl (archaeal glycosylation) genes in the haloarchaeon Haloferax volcanii and the methanogens Methanococcus voltae and Methanococcus maripaludis, some insight into archaeal N glycosylation is, however, available (for a review, see references 6 and 28). For H. volcanii, AglB, AglD, AglE, AglF, AglG, AglI, AglM, and AglP were shown to participate in the assembly and attachment of a pentasaccharide to select Asn residues of the surface (S)-layer protein, a reporter of N glycosylation in this species (23). Specifically, AglG, AglI, AglE, and AglD are thought to be glycosyltransferases involved in adding the second, third, fourth, and fifth pentasaccharide subunits (2, 3, 29), respectively; AglF is a glucose-1-phosphate uridyltransferase (30); AglM is a UDP-glucose dehydrogenase (30); AglP is an S-adenosyl-L-methionine-dependent methyltransferase (17); and AglB is the oligosaccharyltransferase (2).Despite these advances, proteins catalyzing several central steps in the H. volcanii N-glycosylation pathway have yet to be described. Accordingly, one such candidate, HVO_1517, encoding one of the five previously identified H. volcanii homologues of eu...
