Abstract
In the yeast, Saccharomyces cerevisiae, oligosaccharyl transferase (OT) is composed of nine different transmembrane proteins. Using a glycosylatable peptide containing a photoprobe, we previously found that only one essential subunit, Ost1p, was specifically labeled by the photoprobe and recently have shown that it does not contain the recognition domain for the glycosylatable sequence Asn-Xaa-Thr/Ser. In this study we utilized additional glycosylatable peptides containing two photoreactive groups and found that these were linked to Stt3p and Ost3p. Stt3p is the most conserved subunit in the OT complex, and therefore 21 block mutants in the lumenal region were prepared. Of the 14 lethal mutant proteins only two, as well as one temperature-sensitive mutant protein, were incorporated into the OT complex. However, using microsomes prepared from these three strains, the labeling of Ost1p was markedly decreased upon photoactivation with the Asn-Bpa-Thr photoprobe. Based on the block mutants single amino acid mutations were prepared and analyzed. From all of these results, we conclude that the sequence from residues 516 to 520, WWDYG in Stt3p, plays a central role in glycosylatable peptide recognition and/or the catalytic glycosylation process.
Highlights
In the yeast, Saccharomyces cerevisiae, oligosaccharyl transferase (OT) is composed of nine different transmembrane proteins
Oligosaccharyl transferase (OT)1 transfers preassembled oligosaccharide chains from a lipid-linked oligosaccharide donor (Dol-PP-GlcNAc2Man9Glc3) onto asparagine residues specified by the Asn-Xaa-Thr/Ser sequence, where Xaa can be any amino acid except proline [1,2,3,4,5,6]
It is known that the OT does not have a specific requirement for the middle amino acid, as long as it is not proline, which would introduce a rigid kink in the conformation of the peptide [1, 2]
Summary
Stt3p is the most conserved subunit in the OT complex, and 21 block mutants in the lumenal region were prepared. Based on the block mutants single amino acid mutations were prepared and analyzed From all of these results, we conclude that the sequence from residues 516 to 520, WWDYG in Stt3p, plays a central role in glycosylatable peptide recognition and/or the catalytic glycosylation process. To identify the subunit(s) of yeast OT that recognizes AsnXaa-Thr/Ser sites that can be glycosylated, earlier we developed a photoaffinity probe containing a photoreactive benzophenone derivative, p-benzoylphenylalanine (Bpa) [28]. By using this 125I-labeled Bpa-containing tripeptide, we found. Based on studies with these and other mutants, we conclude that Stt3p is the OT subunit involved in peptide recognition and/or catalysis and that the sequence at residues 516 –520, WWDYG, plays a key role in this process
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