Occurs in eukaryotes that form a glycoprotein by the transfer of a glucosyl-mannosyl-glucosamine polysaccharide to the side-chain of an L-asparagine residue in the sequence -Asn-Xaa-Ser- or -Asn-Xaa-Thr- (Xaa not Pro) in nascent polypeptide chains. The basic oligosaccharide is the tetradecasaccharide Glc3Man9GlcNAc2 (for diagram {polysacc/Dol14}). However, smaller oligosaccharides derived from it and oligosaccharides with additional monosaccharide units attached may be involved. See ref for a review of N-glycoproteins in eukaryotes. Man3GlcNAc2 seems to be common for all of the oligosaccharides involved with the terminal N-acetylglucosamine linked to the protein L-asparagine. Occurs on the cytosolic face of the endoplasmic reticulum. The dolichol involved normally has 14-21 isoprenoid units with two trans double-bonds at the omega end, and the rest of the double-bonds in cis form.
Occurs in eukaryotes that form a glycoprotein by the transfer of a glucosyl-mannosyl-glucosamine polysaccharide to the side-chain of an L-asparagine residue in the sequence -Asn-Xaa-Ser- or -Asn-Xaa-Thr- (Xaa not Pro) in nascent polypeptide chains. The basic oligosaccharide is the tetradecasaccharide Glc3Man9GlcNAc2 (for diagram {polysacc/Dol14}). However, smaller oligosaccharides derived from it and oligosaccharides with additional monosaccharide units attached may be involved. See ref [2] for a review of N-glycoproteins in eukaryotes. Man3GlcNAc2 seems to be common for all of the oligosaccharides involved with the terminal N-acetylglucosamine linked to the protein L-asparagine. Occurs on the cytosolic face of the endoplasmic reticulum. The dolichol involved normally has 14-21 isoprenoid units with two trans double-bonds at the omega end, and the rest of the double-bonds in cis form.
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. Ost4p is a minimembrane protein
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex
oligosaccharyl transferase consists of nine different subunits, all of which contain one or more predicted transmembrane segments. In yeast, five of these proteins are encoded by essential genes, Swp1p, Wbp1p, Ost2p, Ost1p and Stt3p. Ost4p functions to bind Ost3p and Stt3p together in a subcomplex of oligosaccharyl transferase via interactions with its amino-acid residues near the cytosolic leaflet of the endoplasmic reticulum membrane. Ost4p is proposed to be responsible for recruiting Ost3p or Ost6p into the oligosaccharyl transferase complex