The total ion current chromatogram of N-glycans from the 38-kDa band obtained by FT-ICR-MS (m/z 700–2,000).

Fragmentation of Negative Ions from Carbohydrates: Part 2. Fragmentation of High-Mannose N-Linked Glycans

Harvey, David J.

May 2005

[M + NO3]− And [M + (NO3)2]2− ions were produced by electrospray from neutral high-mannose ([Man]5–9...

RESEARCH ARTICLE MALDI-MS/MS with Traveling Wave Ion Mobility for the Structural Analysis of N-Linked Glycans

David J. Harvey
Charlotte A. Scarff
Max Crispin
Christopher N. Scanlan
Camille Bonomelli
James H. Scrivens

January 2016

The preference for singly charged ion formation byMALDImakes it a better choice than electrospray io...

Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans

Harvey, David J.
Scarff, Charlotte A.
Edgeworth, Matthew
Crispin, Max
Scanlan, Christopher N.
Sobott, Frank
Allman, Sarah
Baruah, Kavitha
Pritchard, Laura
Scrivens, James H.

July 2013

Travelling wave ion mobility was investigated for its ability to separate N-glycans from other compo...

The total ion current chromatogram of N-linked glycans from the 70-kDa band obtained by FT-ICR-MS (m/z 700–2,000).

Hiroshi Yoshitake (776567)
Noritaka Hashii (442322)
Nana Kawasaki (442324)
Shuichiro Endo (450546)
Kenji Takamori (527419)
Akiko Hasegawa (776568)
Hiroshi Fujiwara (236227)
Yoshihiko Araki (776569)

July 2015

The positive-ion mode (A) and the negative-ion mode (B). Green circle: mannose, white circle: gal...

Extracted ion chromatograms of the N-glycan distribution at Asn52 for Bemfola and GONAL-f.

Renato Mastrangeli (4419745)
Abhijeet Satwekar (2029954)
Francesca Cutillo (4419751)
Cinzia Ciampolillo (4419748)
Wolf Palinsky (4419742)
Salvatore Longobardi (130447)

September 2017

Fig was constructed using MassLynx 4.1 (Waters, Milford MA, USA) from the respective XIC of the g...

Fragmentation and ion mobility properties of negative ions from N-linked carbohydrates : part 7. reduced glycans

Harvey, David J
Abrahams, Jodie L

January 2016

Rationale: Negative ion collision-induced dissociation (CID) spectra of released N-glycans provide v...

Fragmentation of negative ions from N-linked carbohydrates: Part 6. Glycans containing one N-acetylglucosamine in the core

Harvey, David J.
Edgeworth, Matthew
Krishna, Benjamin A.
Bonomelli, Camille
Allman, Sarah A.
Crispin, Max
Scrivens, James H.

September 2014

RATIONALE: Negative ion collision-induced dissociation (CID) spectra of N-glycans contain many diagn...

Fragmentation of negative ions from N-linked carbohydrates: Part 6. Glycans containing one N-acetylglucosamine in the core

Harvey, David J.
Edgeworth, Matthew
Krishna, Benjamin A.
Bonomelli, Camille
Allman, Sarah A.
Crispin, Max
Scrivens, James H.

September 2014

RATIONALE Negative ion collision-induced dissociation (CID) spectra of N-glycans contain many diagno...

Fragmentation of negative ions from N-linked carbohydrates: Part 6. Glycans containing oneN-acetylglucosamine in the core

Harvey, David J.
Edgeworth, Matthew
Krishna, Benjamin A.
Bonomelli, Camille
Allman, Sarah A.
Crispin, Max
Scrivens, James H.

September 2014

RATIONALE Negative ion collision‐induced dissociation (CID) spectra of N‐glycans contain many diagn...

Identification of N-glycans with GalNAc-containing antennae from recombinant HIV trimers by ion mobility and negative ion fragmentation

Harvey, David J.
Behrens, Anna-Janina
Crispin, Max
Struwe, Weston B.

December 2021

Negative ion collision-induced dissociation (CID) of underivatized N-glycans has proved to be a simp...

Travelling-wave ion mobility mass spectrometry and negative ion fragmentation of hybrid and complex N-glycans.

Harvey, D
Scarff, C
Edgeworth, M
Pagel, K
Thalassinos, K
Struwe, W
Crispin, M
Scrivens, J

January 2016

Nitrogen CCSs (CCSs) of hybrid and complex glycans released from the glycoproteins IgG, gp120 (from ...

Differentiation between isomeric triantennary N-linked glycans by negative ion tandem mass spectrometry and confirmation of glycans containing galactose attached to the bisecting (β1-4-GlcNAc) residue in N-glycans from IgG

Harvey, David J.
Crispin, Max
Scanlan, Chris
Singer, Bernhard B.
Lucka, Lothar
Chang, Veronica T.
Radcliffe, Catherine M.
Thobhani, Smita
Yuen, Chun Ting
Rudd, Pauline M.

April 2008

Negative ion tandem mass spectrometry (MS/MS) spectra of three isomeric triantennary N-linked glycan...

Formation and fragmentation of doubly and triply charged ions in the negative ion spectra of neutral N-glycans from viral and other glycoproteins

Harvey, David J
Struwe, Weston B
Behrens, Anna-Janina
Vasiljevic, Snezana
Crispin, Max

December 2021

Structural determination of N-glycans by mass spectrometry is ideally performed by negative ion coll...

Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans

Harvey, David J.
Scarff, Charlotte A.
Edgeworth, Matthew
Crispin, Max
Scanlan, Christopher N.
Sobott, Frank
Allman, Sarah
Baruah, Kavitha
Pritchard, Laura
Scrivens, James H.

August 2013

Travelling wave ion mobility was investigated for its ability to separate N‐glycans from other compo...

Fragmentation of Negative Ions from Carbohydrates: Part 3. Fragmentation of Hybrid and Complex N-Linked Glycans

Harvey, David J.

May 2005

Hybrid and complex N-linked glycans were ionized by electrospray in the presence of ammonium nitrate...

Fragmentation of Negative Ions from Carbohydrates: Part 2. Fragmentation of High-Mannose N-Linked Glycans

Harvey, David J.

May 2005

[M + NO3]− And [M + (NO3)2]2− ions were produced by electrospray from neutral high-mannose ([Man]5–9...

RESEARCH ARTICLE MALDI-MS/MS with Traveling Wave Ion Mobility for the Structural Analysis of N-Linked Glycans

David J. Harvey
Charlotte A. Scarff
Max Crispin
Christopher N. Scanlan
Camille Bonomelli
James H. Scrivens

January 2016

The preference for singly charged ion formation byMALDImakes it a better choice than electrospray io...

Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans

Harvey, David J.
Scarff, Charlotte A.
Edgeworth, Matthew
Crispin, Max
Scanlan, Christopher N.
Sobott, Frank
Allman, Sarah
Baruah, Kavitha
Pritchard, Laura
Scrivens, James H.

July 2013

Travelling wave ion mobility was investigated for its ability to separate N-glycans from other compo...

The total ion current chromatogram of N-linked glycans from the 70-kDa band obtained by FT-ICR-MS (m/z 700–2,000).

Hiroshi Yoshitake (776567)
Noritaka Hashii (442322)
Nana Kawasaki (442324)
Shuichiro Endo (450546)
Kenji Takamori (527419)
Akiko Hasegawa (776568)
Hiroshi Fujiwara (236227)
Yoshihiko Araki (776569)

July 2015

The positive-ion mode (A) and the negative-ion mode (B). Green circle: mannose, white circle: gal...

Extracted ion chromatograms of the N-glycan distribution at Asn52 for Bemfola and GONAL-f.

Renato Mastrangeli (4419745)
Abhijeet Satwekar (2029954)
Francesca Cutillo (4419751)
Cinzia Ciampolillo (4419748)
Wolf Palinsky (4419742)
Salvatore Longobardi (130447)

September 2017

Fig was constructed using MassLynx 4.1 (Waters, Milford MA, USA) from the respective XIC of the g...

Fragmentation and ion mobility properties of negative ions from N-linked carbohydrates : part 7. reduced glycans

Harvey, David J
Abrahams, Jodie L

January 2016

Rationale: Negative ion collision-induced dissociation (CID) spectra of released N-glycans provide v...

Fragmentation of negative ions from N-linked carbohydrates: Part 6. Glycans containing one N-acetylglucosamine in the core

Harvey, David J.
Edgeworth, Matthew
Krishna, Benjamin A.
Bonomelli, Camille
Allman, Sarah A.
Crispin, Max
Scrivens, James H.

September 2014

RATIONALE: Negative ion collision-induced dissociation (CID) spectra of N-glycans contain many diagn...

Fragmentation of negative ions from N-linked carbohydrates: Part 6. Glycans containing one N-acetylglucosamine in the core

Harvey, David J.
Edgeworth, Matthew
Krishna, Benjamin A.
Bonomelli, Camille
Allman, Sarah A.
Crispin, Max
Scrivens, James H.

September 2014

RATIONALE Negative ion collision-induced dissociation (CID) spectra of N-glycans contain many diagno...

Fragmentation of negative ions from N-linked carbohydrates: Part 6. Glycans containing oneN-acetylglucosamine in the core

Harvey, David J.
Edgeworth, Matthew
Krishna, Benjamin A.
Bonomelli, Camille
Allman, Sarah A.
Crispin, Max
Scrivens, James H.

September 2014

RATIONALE Negative ion collision‐induced dissociation (CID) spectra of N‐glycans contain many diagn...

Identification of N-glycans with GalNAc-containing antennae from recombinant HIV trimers by ion mobility and negative ion fragmentation

Harvey, David J.
Behrens, Anna-Janina
Crispin, Max
Struwe, Weston B.

December 2021

Negative ion collision-induced dissociation (CID) of underivatized N-glycans has proved to be a simp...

Travelling-wave ion mobility mass spectrometry and negative ion fragmentation of hybrid and complex N-glycans.

Harvey, D
Scarff, C
Edgeworth, M
Pagel, K
Thalassinos, K
Struwe, W
Crispin, M
Scrivens, J

January 2016

Nitrogen CCSs (CCSs) of hybrid and complex glycans released from the glycoproteins IgG, gp120 (from ...

Differentiation between isomeric triantennary N-linked glycans by negative ion tandem mass spectrometry and confirmation of glycans containing galactose attached to the bisecting (β1-4-GlcNAc) residue in N-glycans from IgG

Harvey, David J.
Crispin, Max
Scanlan, Chris
Singer, Bernhard B.
Lucka, Lothar
Chang, Veronica T.
Radcliffe, Catherine M.
Thobhani, Smita
Yuen, Chun Ting
Rudd, Pauline M.

April 2008

Negative ion tandem mass spectrometry (MS/MS) spectra of three isomeric triantennary N-linked glycan...

Formation and fragmentation of doubly and triply charged ions in the negative ion spectra of neutral N-glycans from viral and other glycoproteins

Harvey, David J
Struwe, Weston B
Behrens, Anna-Janina
Vasiljevic, Snezana
Crispin, Max

December 2021

Structural determination of N-glycans by mass spectrometry is ideally performed by negative ion coll...

Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans

Harvey, David J.
Scarff, Charlotte A.
Edgeworth, Matthew
Crispin, Max
Scanlan, Christopher N.
Sobott, Frank
Allman, Sarah
Baruah, Kavitha
Pritchard, Laura
Scrivens, James H.

August 2013

Travelling wave ion mobility was investigated for its ability to separate N‐glycans from other compo...

Fragmentation of Negative Ions from Carbohydrates: Part 3. Fragmentation of Hybrid and Complex N-Linked Glycans

Harvey, David J.

May 2005

Hybrid and complex N-linked glycans were ionized by electrospray in the presence of ammonium nitrate...

Fragmentation of Negative Ions from Carbohydrates: Part 2. Fragmentation of High-Mannose N-Linked Glycans

Harvey, David J.

May 2005

[M + NO3]− And [M + (NO3)2]2− ions were produced by electrospray from neutral high-mannose ([Man]5–9...

RESEARCH ARTICLE MALDI-MS/MS with Traveling Wave Ion Mobility for the Structural Analysis of N-Linked Glycans

David J. Harvey
Charlotte A. Scarff
Max Crispin
Christopher N. Scanlan
Camille Bonomelli
James H. Scrivens

January 2016

The preference for singly charged ion formation byMALDImakes it a better choice than electrospray io...

Travelling wave ion mobility and negative ion fragmentation for the structural determination of N-linked glycans

Harvey, David J.
Scarff, Charlotte A.
Edgeworth, Matthew
Crispin, Max
Scanlan, Christopher N.
Sobott, Frank
Allman, Sarah
Baruah, Kavitha
Pritchard, Laura
Scrivens, James H.

July 2013

Travelling wave ion mobility was investigated for its ability to separate N-glycans from other compo...

The total ion current chromatogram of <i>N</i>-glycans from the 38-kDa band obtained by FT-ICR-MS (<i>m/z</i> 700–2,000).

Abstract

Extracted data

The total ion current chromatogram of <i>N</i>-glycans from the 38-kDa band obtained by FT-ICR-MS (<i>m/z</i> 700–2,000).

Abstract

Extracted data

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