Separation of Isomeric O-Glycans by Ion Mobility and Liquid Chromatography–Mass Spectrometry
Glycosylation is one of the most important post-translational modifications essential for modulating biological functions on cellular surfaces and within cells. Glycan structures are not predictable from the genome since their biosynthesis is nontemplate driven and subject to multiple sequential and...
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| Published in | Analytical chemistry (Washington) Vol. 91; no. 16; pp. 10604 - 10613 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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United States
American Chemical Society
20.08.2019
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| Abstract | Glycosylation is one of the most important post-translational modifications essential for modulating biological functions on cellular surfaces and within cells. Glycan structures are not predictable from the genome since their biosynthesis is nontemplate driven and subject to multiple sequential and competitive glycosyltransferases/glycosidases. From a structural viewpoint, their analysis presents a particular challenge in terms of sensitivity and structural characterization. Porous graphitized carbon liquid chromatography coupled mass spectrometry (PGCLC-MS) is arguably the gold-standard for the structural characterization of glycoconjugates, especially complex mixtures typical in biological samples. This high performance is due in large part to chromatographic separation of isomers and the information delivered by collision induced fragmentation of each glycan in the mass spectrometer. More recently, ion mobility mass spectrometry (IM-MS) has emerged as an effective tool for gas-phase separation of isomeric oligosaccharides that has been demonstrated with small oligosaccharides and N-glycans. Here, we present a direct comparison of the IM- and LC-separation of O-glycans from porcine gastric and human salivary mucins. Our results identify structures, which are resolved by PGCLC and/or IM, validating the combination of the two methods. Taken together, the incorporation of both techniques into a single platform would be powerful and undoubtedly valuable for determining the full glycome of unknown samples. |
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| AbstractList | Glycosylation is one of the most important post-translational modifications essential for modulating biological functions on cellular surfaces and within cells. Glycan structures are not predictable from the genome since their biosynthesis is nontemplate driven and subject to multiple sequential and competitive glycosyltransferases/glycosidases. From a structural viewpoint, their analysis presents a particular challenge in terms of sensitivity and structural characterization. Porous graphitized carbon liquid chromatography coupled mass spectrometry (PGCLC-MS) is arguably the gold-standard for the structural characterization of glycoconjugates, especially complex mixtures typical in biological samples. This high performance is due in large part to chromatographic separation of isomers and the information delivered by collision induced fragmentation of each glycan in the mass spectrometer. More recently, ion mobility mass spectrometry (IM-MS) has emerged as an effective tool for gas-phase separation of isomeric oligosaccharides that has been demonstrated with small oligosaccharides and N-glycans. Here, we present a direct comparison of the IM- and LC-separation of O-glycans from porcine gastric and human salivary mucins. Our results identify structures, which are resolved by PGCLC and/or IM, validating the combination of the two methods. Taken together, the incorporation of both techniques into a single platform would be powerful and undoubtedly valuable for determining the full glycome of unknown samples.Glycosylation is one of the most important post-translational modifications essential for modulating biological functions on cellular surfaces and within cells. Glycan structures are not predictable from the genome since their biosynthesis is nontemplate driven and subject to multiple sequential and competitive glycosyltransferases/glycosidases. From a structural viewpoint, their analysis presents a particular challenge in terms of sensitivity and structural characterization. Porous graphitized carbon liquid chromatography coupled mass spectrometry (PGCLC-MS) is arguably the gold-standard for the structural characterization of glycoconjugates, especially complex mixtures typical in biological samples. This high performance is due in large part to chromatographic separation of isomers and the information delivered by collision induced fragmentation of each glycan in the mass spectrometer. More recently, ion mobility mass spectrometry (IM-MS) has emerged as an effective tool for gas-phase separation of isomeric oligosaccharides that has been demonstrated with small oligosaccharides and N-glycans. Here, we present a direct comparison of the IM- and LC-separation of O-glycans from porcine gastric and human salivary mucins. Our results identify structures, which are resolved by PGCLC and/or IM, validating the combination of the two methods. Taken together, the incorporation of both techniques into a single platform would be powerful and undoubtedly valuable for determining the full glycome of unknown samples. Glycosylation is one of the most important post-translational modifications essential for modulating biological functions on cellular surfaces and within cells. Glycan structures are not predictable from the genome since their biosynthesis is nontemplate driven and subject to multiple sequential and competitive glycosyltransferases/glycosidases. From a structural viewpoint, their analysis presents a particular challenge in terms of sensitivity and structural characterization. Porous graphitized carbon liquid chromatography coupled mass spectrometry (PGCLC-MS) is arguably the gold-standard for the structural characterization of glycoconjugates, especially complex mixtures typical in biological samples. This high performance is due in large part to chromatographic separation of isomers and the information delivered by collision induced fragmentation of each glycan in the mass spectrometer. More recently, ion mobility mass spectrometry (IM-MS) has emerged as an effective tool for gas-phase separation of isomeric oligosaccharides that has been demonstrated with small oligosaccharides and N-glycans. Here, we present a direct comparison of the IM- and LC-separation of O-glycans from porcine gastric and human salivary mucins. Our results identify structures, which are resolved by PGCLC and/or IM, validating the combination of the two methods. Taken together, the incorporation of both techniques into a single platform would be powerful and undoubtedly valuable for determining the full glycome of unknown samples. Glycosylation is one of the most important post-translational modifications essential for modulating biological functions on cellular surfaces and within cells. Glycan structures are not predictable from the genome since their biosynthesis is nontemplate driven and subject to multiple sequential and competitive glycosyltransferases/glycosidases. From a structural viewpoint, their analysis presents a particular challenge in terms of sensitivity and structural characterization. Porous graphitized carbon liquid chromatography coupled mass spectrometry ( LC-MS) is arguably the gold-standard for the structural characterization of glycoconjugates, especially complex mixtures typical in biological samples. This high performance is due in large part to chromatographic separation of isomers and the information delivered by collision induced fragmentation of each glycan in the mass spectrometer. More recently, ion mobility mass spectrometry (IM-MS) has emerged as an effective tool for gas-phase separation of isomeric oligosaccharides that has been demonstrated with small oligosaccharides and -glycans. Here, we present a direct comparison of the IM- and LC-separation of -glycans from porcine gastric and human salivary mucins. Our results identify structures, which are resolved by LC and/or IM, validating the combination of the two methods. Taken together, the incorporation of both techniques into a single platform would be powerful and undoubtedly valuable for determining the full glycome of unknown samples. |
| Author | Harvey, David J Jin, Chunsheng Struwe, Weston B Karlsson, Niclas G |
| AuthorAffiliation | Chemistry Research laboratory, Department of Chemistry Department of Medical Biochemistry and Cell Biology, Institute of Biomedicine, Sahlgrenska Academy University of Gothenburg Oxford Glycobiology Institute, Department of Biochemistry |
| AuthorAffiliation_xml | – name: University of Gothenburg – name: Department of Medical Biochemistry and Cell Biology, Institute of Biomedicine, Sahlgrenska Academy – name: Oxford Glycobiology Institute, Department of Biochemistry – name: Chemistry Research laboratory, Department of Chemistry |
| Author_xml | – sequence: 1 givenname: Chunsheng surname: Jin fullname: Jin, Chunsheng organization: University of Gothenburg – sequence: 2 givenname: David J orcidid: 0000-0003-0544-771X surname: Harvey fullname: Harvey, David J organization: Oxford Glycobiology Institute, Department of Biochemistry – sequence: 3 givenname: Weston B orcidid: 0000-0003-0594-226X surname: Struwe fullname: Struwe, Weston B email: weston.struwe@chem.ox.ac.uk organization: Chemistry Research laboratory, Department of Chemistry – sequence: 4 givenname: Niclas G surname: Karlsson fullname: Karlsson, Niclas G organization: University of Gothenburg |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31298840$$D View this record in MEDLINE/PubMed https://gup.ub.gu.se/publication/283689$$DView record from Swedish Publication Index |
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| SubjectTerms | Analytical Chemistry Analytisk kemi Biological properties Biological samples Biosynthesis blood-group carbon Cellular structure Chemistry Chromatography collision cross-sections fragmentation gases genome Genomes Glycan Glycoconjugates Glycosidases Glycosylation glycosyltransferases Graphitization humans Ionic mobility Ions Isomers Liquid chromatography Mass spectrometry Mass spectroscopy Mobility Mucin Mucins N-glycans negative-ions Oligosaccharides Phase separation Polysaccharides Post-translation Scientific imaging Sensitivity analysis spectrometers Spectroscopy Structural analysis structural determination swine unicarb-db |
| Title | Separation of Isomeric O-Glycans by Ion Mobility and Liquid Chromatography–Mass Spectrometry |
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