Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations
© 2018 the Owner Societies. Collision-induced dissociation of sodiated α-glucose, β-glucose, α-galactose, β-galactose, α-mannose, and β-mannose was studied using electronic structure calculations and resonance excitation in a low-pressure linear ion trap. We made an extensive search of conformers an...
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th-cmuir.6653943832-584762018-09-05T04:39:50Z Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations Hai Thi Huynh Huu Trong Phan Po Jen Hsu Jien Lian Chen Hock Seng Nguan Shang Ting Tsai Thantip Roongcharoen Chia Yen Liew Chi Kung Ni Jer Lai Kuo Chemistry Physics and Astronomy © 2018 the Owner Societies. Collision-induced dissociation of sodiated α-glucose, β-glucose, α-galactose, β-galactose, α-mannose, and β-mannose was studied using electronic structure calculations and resonance excitation in a low-pressure linear ion trap. We made an extensive search of conformers and transition states in calculations to ensure the transition state with the lowest barrier height for each dissociation channel could be located. The major dissociation channels, in addition to desodiation, are cross-ring dissociation and dehydration. Cross-ring dissociation starts with H atom transfer from the O1 atom to the O0 atom, followed by the cleavage of the C1-O0 bond. Dehydration of the anomer with O1 and O2 atoms in the cis configuration involves the transfer of an H atom from the O2 atom to the O1 atom, followed by the cleavage of the C1-O1 bond. In contrast, dehydration of the anomer with O1 and O2 atoms in the trans configuration mainly occurs through H atom transfer from the O3 or O2 atom to the O1 atom for glucose, from the O3 or O4 atom to the O1 atom for galactose, and from the O4 or O2 atom to the O1 atom for mannose, followed by the cleavage of the C1-O1 bond. The dehydration barrier heights are lower than those of cross-ring dissociation for cis anomers, but higher than those of cross-ring dissociation for trans anomers. The relative barrier heights from calculations are consistent with the experimental measurements of branching ratios. Both computational and experimental results show that the branching ratio of dehydration can be generalized as a simple rule for rapidly identifying the anomeric configurations of these monosaccharides. 2018-09-05T04:25:06Z 2018-09-05T04:25:06Z 2018-01-01 Journal 14639076 2-s2.0-85050806035 10.1039/c8cp03753a https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85050806035&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/58476 |
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Chemistry Physics and Astronomy Hai Thi Huynh Huu Trong Phan Po Jen Hsu Jien Lian Chen Hock Seng Nguan Shang Ting Tsai Thantip Roongcharoen Chia Yen Liew Chi Kung Ni Jer Lai Kuo Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations |
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© 2018 the Owner Societies. Collision-induced dissociation of sodiated α-glucose, β-glucose, α-galactose, β-galactose, α-mannose, and β-mannose was studied using electronic structure calculations and resonance excitation in a low-pressure linear ion trap. We made an extensive search of conformers and transition states in calculations to ensure the transition state with the lowest barrier height for each dissociation channel could be located. The major dissociation channels, in addition to desodiation, are cross-ring dissociation and dehydration. Cross-ring dissociation starts with H atom transfer from the O1 atom to the O0 atom, followed by the cleavage of the C1-O0 bond. Dehydration of the anomer with O1 and O2 atoms in the cis configuration involves the transfer of an H atom from the O2 atom to the O1 atom, followed by the cleavage of the C1-O1 bond. In contrast, dehydration of the anomer with O1 and O2 atoms in the trans configuration mainly occurs through H atom transfer from the O3 or O2 atom to the O1 atom for glucose, from the O3 or O4 atom to the O1 atom for galactose, and from the O4 or O2 atom to the O1 atom for mannose, followed by the cleavage of the C1-O1 bond. The dehydration barrier heights are lower than those of cross-ring dissociation for cis anomers, but higher than those of cross-ring dissociation for trans anomers. The relative barrier heights from calculations are consistent with the experimental measurements of branching ratios. Both computational and experimental results show that the branching ratio of dehydration can be generalized as a simple rule for rapidly identifying the anomeric configurations of these monosaccharides. |
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author |
Hai Thi Huynh Huu Trong Phan Po Jen Hsu Jien Lian Chen Hock Seng Nguan Shang Ting Tsai Thantip Roongcharoen Chia Yen Liew Chi Kung Ni Jer Lai Kuo |
author_facet |
Hai Thi Huynh Huu Trong Phan Po Jen Hsu Jien Lian Chen Hock Seng Nguan Shang Ting Tsai Thantip Roongcharoen Chia Yen Liew Chi Kung Ni Jer Lai Kuo |
author_sort |
Hai Thi Huynh |
title |
Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations |
title_short |
Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations |
title_full |
Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations |
title_fullStr |
Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations |
title_full_unstemmed |
Collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations |
title_sort |
collision-induced dissociation of sodiated glucose, galactose, and mannose, and the identification of anomeric configurations |
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2018 |
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https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85050806035&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/58476 |
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