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1H NMR Elucidation of Observed Stable Sugar-NaCl-water Complexes in Aqueous Solution

03 February 2022, Version 4
Working Paper
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The solvation of sugars in aqueous media matters in the understanding of biological systems and carbohydrate transformations. Generally, 2 – 4 water units were proposed to interact with each hydroxyl group in monosaccharides via different types of hydrogen bondings at room temperature in previous studies. Presence of NaCl is known to perturb hydrogen bondings of sugar hydrates. However, direct evidence to elucidate mechanism at atom level is very rare even though the “NaCl Effect” was well known in biomass chemical transformations. Here we report 1H NMR elucidation evidences of mono/disaccharides hydrates in different concentrations of NaCl aqueous solutions. We here conclude two new findings: 1) under ideal usage of NaCl, different mono/disaccharides hydrates are likely to be converted into a stable sugar-NaCl-water form via a stepwise mechanism; 2) reactivity order (acidity difference) of different hydroxyls in mono/disaccharides has intangible influence on hydrate form change induced by NaCl. An ideal NaCl usage based on maximum of 1H NMR shift was proposed.

Keywords

NaCl effect
1H NMR elucidation
mono/disaccharides
stable sugar-NaCl-water complex
aqueous solution

Supplementary materials

Title
Description
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Title
SI
Description
Updated version with J coupling constant data/spectrum.
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Version History

Feb 03, 2022 Version 4

Version Notes

Here are key changes regarding the comments from reviewers 1) Figure 2 and Figure 3 were updated with new ones in a better resolution, wt% was converted into M for concentrations and molar ratios of CNaCl/Cmonosaccharide was also inserted. 2) Discussions on J coupling constants was added in 3.1 (page 8). 3) A new sentence on chemical shift referencing was added in 3.5 (page 12). 4) Figure 5 and its related description were updated; current proposed sugar-NaCl-water complexes are more consistent with evidences and basic physical organic chemistry (page 12). 5) Reference 28 was updated with three new literatures and the previous one was deleted since the related sentence was deleted as well. 6) Some sentences in experimental section were deleted or shortened as suggested. And all concentrations of NaCl solution were updated with M in this revised manuscript.

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The content is available under CC BY NC ND 4.0 [opens in a new tab]

DOI

10.26434/chemrxiv-2021-t8k0j-v4
D O I: 10.26434/chemrxiv-2021-t8k0j-v4 [opens in a new tab]

Funding

Jinan University
No: 88015155 and 88016607
Jinan University
National Natural Science Foundation of China
No. 21372099
National Natural Science Foundation of China

Author’s competing interest statement

The author(s) have declared they have no conflict of interest with regard to this content

Ethics

The author(s) have declared ethics committee/IRB approval is not relevant to this content

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