Structural Documentation of Glycan Epitopes: Sequential Mass Spectrometry and Spectral Matching

Ashline, David J.; Hanneman, Andrew; Zhang, Hailong; Reinhold, Vernon N.

doi:10.1007/s13361-013-0776-9

Cited by 36 publications

(47 citation statements)

References 51 publications

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“…For internal Fuc-LacNAc units, spectrum matching with standards has indicated that these structures match very well with the B/Y-type Fuc-LacNAc trisaccharide fragment isolated for sialylated Lewis X standards. This sim- ilarity essentially indicates that this unit is an internal Lewis X structure, and the m/z 646 fragmentation matches that standard trisaccharide spectrum (12). The isomeric mixture spectrum isolated from HMG-51 is shown in Fig.…”

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusessupporting

confidence: 61%

“…Fucose localization, branching/ topology, linkages, and other epitope structure assignments are similar for all (23).…”

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusesmentioning

confidence: 78%

“…Data interpretation involved a combination of de novo and library-matching approaches. The evaluation of oligosaccharide standards, reproducibility, and comparison with biological samples is well appreciated (12). Where indicated, CID spectra of HMG fragment spectra were compared with those of standards for identification.…”

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusesmentioning

confidence: 99%

“…Furthermore, the intensity pattern of the internal LacNAc is indicative of the -OH group at the 3-position of the galactose, rather than the 6-position, thus the assignment of the three-linkage between the LacNAc units. This last assignment was based on spectral comparisons with standard materials and was supported by computationally assigned spectral-matching scores (supplemental material HMG-13) (23).…”

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusesmentioning

confidence: 99%

“…To approach such detail, we describe here a stepwise disassembly to obtain low molecular weight ion fragments where structural detail is exposed. Such fragment spectra are matched and compiled in a library that has been documented with synthetic standards (12).…”

mentioning

confidence: 99%

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Structural Characterization by Multistage Mass Spectrometry (MSn) of Human Milk Glycans Recognized by Human Rotaviruses

Ashline

Lasanajak

et al. 2014

Molecular & Cellular Proteomics

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We have shown that recombinant forms of VP8* domains of the human rotavirus outer capsid spike protein VP4 from human neonatal strains (N155 (G10P[11]) and RV3-(G3P [6]) and a bovine strain (B223) recognize unique glycans within the repertoire of human milk glycans. The accompanying study by Yu et al.2 , describes a human milk glycan shotgun glycan microarray that led to the identification of 32 specific glycans in the human milk tagged glycan library that were recognized by these human rotaviruses. These microarray analyses also provided a variety of metadata about the recognized glycan structures compiled from anti-glycan antibody and lectin binding before and after specific glycosidase digestions, along with compositional information from mass analysis by matrix-assisted laser desorption ionization-mass spectrometry. To deduce glycan sequence and utilize information predicted by analyses of metadata from each glycan, 28 of the glycan targets were retrieved from the tagged glycan library for detailed sequencing using sequential disassembly of glycans by ion-trap mass spectrometry. Our aim is to obtain a deeper structural understanding of these key glycans using an orthogonal approach for structural confirmation in a single ion trap mass spectrometer. This sequential ion disassembly strategy details the complexities of linkage and branching in multiple compositions, several of which contained isomeric mixtures including several novel structures. The application of this approach exploits both library matching with standard materials and de novo approaches. This combination together with the metadata generated from lectin and antibody-binding data before and after glycosidase digestions provide a heretofore-unavailable level of analytical detail to glycan structure analysis. The results of these studies showed that, among the 28 glycan targets analyzed, 27 unique structures were identified, and 23 of the human milk glycans recognized by human rotaviruses represent novel structures not previously described as glycans in human milk. The functional glycomics analysis of human milk glycans provides significant insight into the repertoire of glycans comprising the human milk metaglycome. Molecular & Cellular

show abstract

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusessupporting

confidence: 61%

“…Fucose localization, branching/ topology, linkages, and other epitope structure assignments are similar for all (23).…”

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusesmentioning

confidence: 78%

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusesmentioning

confidence: 99%

Section: Ms N Analysis Of Human Milk Glycans Recognized By Rotavirusesmentioning

confidence: 99%

mentioning

confidence: 99%

See 3 more Smart Citations

Structural Characterization by Multistage Mass Spectrometry (MSn) of Human Milk Glycans Recognized by Human Rotaviruses

Ashline

Lasanajak

et al. 2014

Molecular & Cellular Proteomics

Self Cite

View full text Add to dashboard Cite

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Effective Assignment of α2,3/α2,6‐Sialic Acid Isomers by LC‐MS/MS‐Based Glycoproteomics

et al. 2018

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Distinct structural changes of the a2,3/a2,6-sialic acid glycosidic linkages on glycoproteins are of importance in cancer biology,i nflammatory diseases,a nd virus tropism. Current glycoproteomic methodologies are,h owever,n ot amenable toward high-throughput characterization of sialic acid isomers.T oenable such assignments,amass spectrometry method utilizing synthetic model glycopeptides for the analysis of oxonium ion intensity ratios was developed. This method was successfully applied in large-scale glycoproteomics,t hus allowing the site-specific structural characterization of sialic acid isomers.

show abstract

Effective Assignment of α2,3/α2,6‐Sialic Acid Isomers by LC‐MS/MS‐Based Glycoproteomics

et al. 2018

View full text Add to dashboard Cite

Distinct structural changes of the α2,3/α2,6-sialic acid glycosidic linkages on glycoproteins are of importance in cancer biology, inflammatory diseases, and virus tropism. Current glycoproteomic methodologies are, however, not amenable toward high-throughput characterization of sialic acid isomers. To enable such assignments, a mass spectrometry method utilizing synthetic model glycopeptides for the analysis of oxonium ion intensity ratios was developed. This method was successfully applied in large-scale glycoproteomics, thus allowing the site-specific structural characterization of sialic acid isomers.

show abstract

Structural Documentation of Glycan Epitopes: Sequential Mass Spectrometry and Spectral Matching

Cited by 36 publications

References 51 publications

Structural Characterization by Multistage Mass Spectrometry (MSn) of Human Milk Glycans Recognized by Human Rotaviruses

Structural Characterization by Multistage Mass Spectrometry (MSn) of Human Milk Glycans Recognized by Human Rotaviruses

Effective Assignment of α2,3/α2,6‐Sialic Acid Isomers by LC‐MS/MS‐Based Glycoproteomics

Effective Assignment of α2,3/α2,6‐Sialic Acid Isomers by LC‐MS/MS‐Based Glycoproteomics

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