Assignment of hexuronic acid stereochemistry in synthetic heparan sulfate tetrasaccharides with 2-O-sulfo uronic acids using electron detachment dissociation

[Display omitted] •Uronic acid assignment in glycosaminoglycans is a major analytical challenge.•Ten 2-O-sulfo HS tetrasaccharides were subjected to MS/MS analysis using EDD.•B3 and Y1 ions are diagnostic of GlcA, independent of the degree of sulfation.•The ratios of the sum of diagnostic ions predi...

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Published inInternational journal of mass spectrometry Vol. 390; pp. 163 - 169
Main Authors Agyekum, Isaac, Patel, Anish B., Zong, Chengli, Boons, Geert-Jan, Amster, I. Jonathan
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.11.2015
Subjects
Carbohydrates
Electron detachment dissociation
Epimers
FTICR
Glycosaminoglycans
Principal component analysis
Epimers
Carbohydrates
Glycosaminoglycans
FTICR
Electron detachment dissociation
Principal component analysis
Online AccessGet full text
ISSN1387-3806
1873-2798
DOI10.1016/j.ijms.2015.08.018

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Abstract [Display omitted] •Uronic acid assignment in glycosaminoglycans is a major analytical challenge.•Ten 2-O-sulfo HS tetrasaccharides were subjected to MS/MS analysis using EDD.•B3 and Y1 ions are diagnostic of GlcA, independent of the degree of sulfation.•The ratios of the sum of diagnostic ions predict GlcA versus IdoA in all cases. The present work focuses on the assignment of uronic acid stereochemistry in heparan sulfate (HS) oligomers. The structural elucidation of HS glycosaminoglycans is the subject of considerable importance due to the biological and biomedical significance of this class of carbohydrates. They are highly heterogeneous due to their non-template biosynthesis. Advances in tandem mass spectrometry activation methods, particularly electron detachment dissociation (EDD), have led to the development of methods to assign sites of sulfo modification in glycosaminoglycan oligomers, but there are few reports of the assignment of uronic acid stereochemistry, necessary to distinguish glucuronic acid (GlcA) from iduronic acid (IdoA). While preceding studies focused on uronic acid epimers with no sulfo modification, the current work extends the assignment of the hexuronic acid stereochemistry to 2-O-sulfo uronic acid epimeric tetrasaccharides. The presence of a 2-O-sulfo group on the central uronic acid was found to greatly influence the formation of B3, C2, Z2, and Y1 ions in glucuronic acid and Y2 and 1,5X2 for iduronic acid. The intensity of these peaks can be combined to yield diagnostic ratios (DR), which can be used to confidently assign the uronic acid stereochemistry.
AbstractList The present work focuses on the assignment of uronic acid stereochemistry in heparan sulfate (HS) oligomers. The structural elucidation of HS glycosaminoglycans is the subject of considerable importance due to the biological and biomedical significance of this class of carbohydrates. They are highly heterogeneous due to their non-template biosynthesis. Advances in tandem mass spectrometry activation methods, particularly electron detachment dissociation (EDD), has led to the development of methods to assign sites of sulfo modification in glycosaminoglycan oligomers, but there are few reports of the assignment of uronic acid stereochemistry, necessary to distinguish glucuronic acid (GlcA) from iduronic acid (IdoA). Whereas preceding studies focused on uronic acid epimers with no sulfo modification, the current work extends the assignment of the hexuronic acid stereochemistry to 2-O-sulfo uronic acid epimeric tetrasaccharides. The presence of a 2-O-sulfo group on the central uronic acid was found to greatly influence the formation of B3, C2, Z2, and Y1 ions in glucuronic acid and Y2 and 1,5X2 for iduronic acid. The intensity of these peaks can be combined to yield a diagnostic ratios (DR), which can be used to confidently assign the uronic acid stereochemistry.
The present work focuses on the assignment of uronic acid stereochemistry in heparan sulfate (HS) oligomers. The structural elucidation of HS glycosaminoglycans is the subject of considerable importance due to the biological and biomedical significance of this class of carbohydrates. They are highly heterogeneous due to their non-template biosynthesis. Advances in tandem mass spectrometry activation methods, particularly electron detachment dissociation (EDD), has led to the development of methods to assign sites of sulfo modification in glycosaminoglycan oligomers, but there are few reports of the assignment of uronic acid stereochemistry, necessary to distinguish glucuronic acid (GlcA) from iduronic acid (IdoA). Whereas preceding studies focused on uronic acid epimers with no sulfo modification, the current work extends the assignment of the hexuronic acid stereochemistry to 2- -sulfo uronic acid epimeric tetrasaccharides. The presence of a 2- -sulfo group on the central uronic acid was found to greatly influence the formation of B , C , Z , and Y ions in glucuronic acid and Y and X for iduronic acid. The intensity of these peaks can be combined to yield a diagnostic ratios (DR), which can be used to confidently assign the uronic acid stereochemistry.
The present work focuses on the assignment of uronic acid stereochemistry in heparan sulfate (HS) oligomers. The structural elucidation of HS glycosaminoglycans is the subject of considerable importance due to the biological and biomedical significance of this class of carbohydrates. They are highly heterogeneous due to their non-template biosynthesis. Advances in tandem mass spectrometry activation methods, particularly electron detachment dissociation (EDD), has led to the development of methods to assign sites of sulfo modification in glycosaminoglycan oligomers, but there are few reports of the assignment of uronic acid stereochemistry, necessary to distinguish glucuronic acid (GlcA) from iduronic acid (IdoA). Whereas preceding studies focused on uronic acid epimers with no sulfo modification, the current work extends the assignment of the hexuronic acid stereochemistry to 2- O -sulfo uronic acid epimeric tetrasaccharides. The presence of a 2- O -sulfo group on the central uronic acid was found to greatly influence the formation of B 3 , C 2 , Z 2 , and Y 1 ions in glucuronic acid and Y 2 and 1,5 X 2 for iduronic acid. The intensity of these peaks can be combined to yield a diagnostic ratios (DR), which can be used to confidently assign the uronic acid stereochemistry.
[Display omitted] •Uronic acid assignment in glycosaminoglycans is a major analytical challenge.•Ten 2-O-sulfo HS tetrasaccharides were subjected to MS/MS analysis using EDD.•B3 and Y1 ions are diagnostic of GlcA, independent of the degree of sulfation.•The ratios of the sum of diagnostic ions predict GlcA versus IdoA in all cases. The present work focuses on the assignment of uronic acid stereochemistry in heparan sulfate (HS) oligomers. The structural elucidation of HS glycosaminoglycans is the subject of considerable importance due to the biological and biomedical significance of this class of carbohydrates. They are highly heterogeneous due to their non-template biosynthesis. Advances in tandem mass spectrometry activation methods, particularly electron detachment dissociation (EDD), have led to the development of methods to assign sites of sulfo modification in glycosaminoglycan oligomers, but there are few reports of the assignment of uronic acid stereochemistry, necessary to distinguish glucuronic acid (GlcA) from iduronic acid (IdoA). While preceding studies focused on uronic acid epimers with no sulfo modification, the current work extends the assignment of the hexuronic acid stereochemistry to 2-O-sulfo uronic acid epimeric tetrasaccharides. The presence of a 2-O-sulfo group on the central uronic acid was found to greatly influence the formation of B3, C2, Z2, and Y1 ions in glucuronic acid and Y2 and 1,5X2 for iduronic acid. The intensity of these peaks can be combined to yield diagnostic ratios (DR), which can be used to confidently assign the uronic acid stereochemistry.
Author Zong, Chengli
Patel, Anish B.
Agyekum, Isaac
Boons, Geert-Jan
Amster, I. Jonathan
AuthorAffiliation 2 University of Georgia, Complex Carbohydrate Research Center, Athens, GA, United States
1 University of Georgia, Department of Chemistry, Athens, GA
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Keywords Epimers
Carbohydrates
Glycosaminoglycans
FTICR
Electron detachment dissociation
Principal component analysis
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Snippet [Display omitted] •Uronic acid assignment in glycosaminoglycans is a major analytical challenge.•Ten 2-O-sulfo HS tetrasaccharides were subjected to MS/MS...
The present work focuses on the assignment of uronic acid stereochemistry in heparan sulfate (HS) oligomers. The structural elucidation of HS...
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StartPage 163
SubjectTerms Carbohydrates
Electron detachment dissociation
Epimers
FTICR
Glycosaminoglycans
Principal component analysis
Title Assignment of hexuronic acid stereochemistry in synthetic heparan sulfate tetrasaccharides with 2-O-sulfo uronic acids using electron detachment dissociation
URI https://dx.doi.org/10.1016/j.ijms.2015.08.018
https://www.ncbi.nlm.nih.gov/pubmed/26612977
https://www.proquest.com/docview/1826633878
https://pubmed.ncbi.nlm.nih.gov/PMC4655891
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