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dc.contributor.authorRuiz-Canada, Catalina
dc.contributor.authorKelleher, Daniel J.
dc.contributor.authorGilmore, Reid
dc.date2022-08-11T08:08:00.000
dc.date.accessioned2022-08-23T15:38:55Z
dc.date.available2022-08-23T15:38:55Z
dc.date.issued2009-01-23
dc.date.submitted2014-10-22
dc.identifier.citationCell. 2009 Jan 23;136(2):272-83. doi: 10.1016/j.cell.2008.11.047. <a href="http://dx.doi.org/10.1016/j.cell.2008.11.047">Link to article on publisher's site</a>
dc.identifier.issn0092-8674 (Linking)
dc.identifier.doi10.1016/j.cell.2008.11.047
dc.identifier.pmid19167329
dc.identifier.urihttp://hdl.handle.net/20.500.14038/26041
dc.description.abstractAsparagine-linked glycosylation of polypeptides in the lumen of the endoplasmic reticulum is catalyzed by the hetero-oligomeric oligosaccharyltransferase (OST). OST isoforms with different catalytic subunits (STT3A versus STT3B) and distinct enzymatic properties are coexpressed in mammalian cells. Using siRNA to achieve isoform-specific knockdowns, we show that the OST isoforms cooperate and act sequentially to mediate protein N-glycosylation. The STT3A OST isoform is primarily responsible for cotranslational glycosylation of the nascent polypeptide as it enters the lumen of the endoplasmic reticulum. The STT3B isoform is required for efficient cotranslational glycosylation of an acceptor site adjacent to the N-terminal signal sequence of a secreted protein. Unlike STT3A, STT3B efficiently mediates posttranslational glycosylation of a carboxyl-terminal glycosylation site in an unfolded protein. These distinct and complementary roles for the OST isoforms allow sequential scanning of polypeptides for acceptor sites to insure the maximal efficiency of N-glycosylation.
dc.language.isoen_US
dc.relation<a href="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=pubmed&cmd=Retrieve&list_uids=19167329&dopt=Abstract">Link to Article in PubMed</a>
dc.relation.urlhttp://dx.doi.org/10.1016/j.cell.2008.11.047
dc.subjectEndoplasmic Reticulum
dc.subjectGene Knockdown Techniques
dc.subjectGlycoproteins
dc.subjectGlycosylation
dc.subjectHeLa Cells
dc.subjectHexosyltransferases
dc.subjectHumans
dc.subjectMembrane Proteins
dc.subjectModels, Molecular
dc.subjectProtein Folding
dc.subjectProtein Isoforms
dc.subjectProtein Processing, Post-Translational
dc.subjectProteins
dc.subjectBiochemistry
dc.subjectBiochemistry, Biophysics, and Structural Biology
dc.subjectMedical Neurobiology
dc.subjectMolecular Biology
dc.titleCotranslational and posttranslational N-glycosylation of polypeptides by distinct mammalian OST isoforms
dc.typeJournal Article
dc.source.journaltitleCell
dc.source.volume136
dc.source.issue2
dc.identifier.legacycoverpagehttps://escholarship.umassmed.edu/bmp_pp/180
dc.identifier.contextkey6269453
html.description.abstract<p>Asparagine-linked glycosylation of polypeptides in the lumen of the endoplasmic reticulum is catalyzed by the hetero-oligomeric oligosaccharyltransferase (OST). OST isoforms with different catalytic subunits (STT3A versus STT3B) and distinct enzymatic properties are coexpressed in mammalian cells. Using siRNA to achieve isoform-specific knockdowns, we show that the OST isoforms cooperate and act sequentially to mediate protein N-glycosylation. The STT3A OST isoform is primarily responsible for cotranslational glycosylation of the nascent polypeptide as it enters the lumen of the endoplasmic reticulum. The STT3B isoform is required for efficient cotranslational glycosylation of an acceptor site adjacent to the N-terminal signal sequence of a secreted protein. Unlike STT3A, STT3B efficiently mediates posttranslational glycosylation of a carboxyl-terminal glycosylation site in an unfolded protein. These distinct and complementary roles for the OST isoforms allow sequential scanning of polypeptides for acceptor sites to insure the maximal efficiency of N-glycosylation.</p>
dc.identifier.submissionpathbmp_pp/180
dc.contributor.departmentBiochemistry and Molecular Pharmacology
dc.contributor.departmentNeurobiology
dc.source.pages272-83


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