Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans
Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans
Travelling wave ion mobility was investigated for its ability to separate N-glycans from other compounds and for resolution of isomers. Charged glycans, exemplified by sialylated complex N-glycans released from bovine fetuin and ionised by electrospray, could be separated from residual glycopeptides allowing the minor, more highly sialylated compounds to be detected where their ions were obscured by ions from other compounds in different charge states. This technique was also found to be excellent for extracting the N-glycan profiles from contaminated samples. Structural identification of the glycans was performed by negative ion CID fragmentation, a method that provides a wealth of structurally diagnostic ions. However, fragment ions can also appear in the glycan profiles where they can be mistaken for glycan molecular ions. Fragments and molecular ions were frequently shown to have different drift time profiles, allowing them to be differentiated. Some separation of isomers was found but only for the smallest compounds. Differentiation from conformers was achieved by plotting drift time profiles of the fragments; these profiles matched those of the precursor ions where conformers were present. The techniques were applied to investigations of N-glycans released from the fungus Piptoporus betulinus where the technique was used to separate different carbohydrate types present in biological extracts.
Carbohydrates, Fragmentation, Ion mobility, Isomers, N-glycans
2368-2378
Harvey, David J.
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Scarff, Charlotte A.
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Edgeworth, Matthew
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Crispin, Max
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Scanlan, Christopher N.
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Sobott, Frank
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Allman, Sarah
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Baruah, Kavitha
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Pritchard, Laura
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Scrivens, James H.
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August 2013
Harvey, David J.
8bb24417-3852-4b1f-827b-0d5d2c176744
Scarff, Charlotte A.
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Edgeworth, Matthew
c5c55ff2-e3a7-4237-baa2-079b0001b688
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Scanlan, Christopher N.
04dd1b57-b6fc-414c-8595-08310dbb3d32
Sobott, Frank
8541c539-f988-4fe6-97d9-d18aa523386c
Allman, Sarah
fbda335f-e4f2-44ca-8517-8aad42801f39
Baruah, Kavitha
a02f59f3-5e0f-4735-9fdd-639bdbb8f563
Pritchard, Laura
bfa1d1b4-50b6-401f-b153-8c3322b2e726
Scrivens, James H.
14c72a07-84f3-4ae9-b925-c6b594738d62
Harvey, David J., Scarff, Charlotte A., Edgeworth, Matthew, Crispin, Max, Scanlan, Christopher N., Sobott, Frank, Allman, Sarah, Baruah, Kavitha, Pritchard, Laura and Scrivens, James H.
(2013)
Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans.
Electrophoresis, 34 (16), .
(doi:10.1002/elps.201200669).
Abstract
Travelling wave ion mobility was investigated for its ability to separate N-glycans from other compounds and for resolution of isomers. Charged glycans, exemplified by sialylated complex N-glycans released from bovine fetuin and ionised by electrospray, could be separated from residual glycopeptides allowing the minor, more highly sialylated compounds to be detected where their ions were obscured by ions from other compounds in different charge states. This technique was also found to be excellent for extracting the N-glycan profiles from contaminated samples. Structural identification of the glycans was performed by negative ion CID fragmentation, a method that provides a wealth of structurally diagnostic ions. However, fragment ions can also appear in the glycan profiles where they can be mistaken for glycan molecular ions. Fragments and molecular ions were frequently shown to have different drift time profiles, allowing them to be differentiated. Some separation of isomers was found but only for the smallest compounds. Differentiation from conformers was achieved by plotting drift time profiles of the fragments; these profiles matched those of the precursor ions where conformers were present. The techniques were applied to investigations of N-glycans released from the fungus Piptoporus betulinus where the technique was used to separate different carbohydrate types present in biological extracts.
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Accepted/In Press date: 5 March 2013
e-pub ahead of print date: 22 July 2013
Published date: August 2013
Keywords:
Carbohydrates, Fragmentation, Ion mobility, Isomers, N-glycans
Identifiers
Local EPrints ID: 414418
URI: http://eprints.soton.ac.uk/id/eprint/414418
ISSN: 0173-0835
PURE UUID: 7c5ef467-8b32-4873-a2f3-b31eb363bde3
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Date deposited: 28 Sep 2017 16:31
Last modified: 16 Mar 2024 04:30
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Contributors
Author:
David J. Harvey
Author:
Charlotte A. Scarff
Author:
Matthew Edgeworth
Author:
Christopher N. Scanlan
Author:
Frank Sobott
Author:
Sarah Allman
Author:
Kavitha Baruah
Author:
Laura Pritchard
Author:
James H. Scrivens
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