Comprehensive Glycoscience 2021
DOI: 10.1016/b978-0-12-819475-1.00001-8
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General NMR Spectroscopy of Carbohydrates and Conformational Analysis in Solution

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Cited by 11 publications
(5 citation statements)
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“…The 1 H and 13 C NMR chemical shifts of disaccharide 3 were previously assigned at 343 K, [28] though for the H6 protons only approximate chemical shifts were obtained due to small chemical shift differences within each hydroxymethyl group. A series of 1 H NMR spectra were acqired in the temperature range 300 K–330 K (Figure 6), as well as a 13 C NMR spectrum at 300 K, and assigned by NMR experiments suitable for carbohydrates [83] . Refinement of 1 H NMR chemical shifts and n J HH coupling constants at 300 K and 330 K (Table 4) were subsequently carried out using NMR spin‐simulation [30,31] .…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The 1 H and 13 C NMR chemical shifts of disaccharide 3 were previously assigned at 343 K, [28] though for the H6 protons only approximate chemical shifts were obtained due to small chemical shift differences within each hydroxymethyl group. A series of 1 H NMR spectra were acqired in the temperature range 300 K–330 K (Figure 6), as well as a 13 C NMR spectrum at 300 K, and assigned by NMR experiments suitable for carbohydrates [83] . Refinement of 1 H NMR chemical shifts and n J HH coupling constants at 300 K and 330 K (Table 4) were subsequently carried out using NMR spin‐simulation [30,31] .…”
Section: Resultsmentioning
confidence: 99%
“…A series of 1 H NMR spectra were acqired in the temperature range 300 K-330 K (Figure 6), as well as a 13 C NMR spectrum at 300 K, and assigned by NMR experiments suitable for carbohydrates. [83] Refinement of 1 H NMR chemical shifts and n J HH coupling constants at 300 K and 330 K (Table 4) were subsequently carried out using NMR spin-simulation. [30,31] In non-substituted hydroxymethyl groups of methyl glycopryanosides having the gluco-or galacto-configuration 3 J H5,H6pro-R > 3 J H5,H6pro-S , [84,85] which was used to assign H6 resonances of compound 3 resulting in that δ H6pro-R > δ H6pro-S in both sugar residues at 300 K. The 3 J H5,H6 coupling constants differ somewhat to those of the monosaccharides and the rotamer distributions from experimental coupling constant data show that for ω' the major rotamer has the gg conformation whereas for ω the major rotamer has the gt conformation (Table 3).…”
Section: Disaccharidementioning
confidence: 99%
“…1989 ). NMR experiments suitable for resonance assignments of carbohydrates ( Widmalm 2021 ) were recorded essentially as previously described ( Furevi et al. 2020 ); specific additional experimental conditions are given below.…”
Section: Methodsmentioning
confidence: 99%
“…The 2D 1 H, 13 C-HSQC NMR spectrum revealed, inter alia, a characteristic cross-peak at δ H /δ C 5.06/98.27 originating from the anomeric atoms of the α-(1→2)-linked glucosyl group as a side-chain. A 31 P NMR spectrum of the WT SCC showed a resonance at 1.1 ppm, indicative of a phosphodiester linkage 36 . This was also the case for the ΔsccP and ΔsccQ SCCs, whereas 31 P NMR signals were absent in spectra from the ΔsccM, ΔsccN and ΔsccMΔsccQ SCCs.…”
Section: Grop Is Linked To Position 6 On α-Glc Located At Position 2 ...mentioning
confidence: 99%
“…SCCs isolated from WT and the various mutant strains were dissolved in D 2 O. NMR experiments were conducted in 5 mm outer diameter NMR tubes on Bruker NMR spectrometers operating at 1 H frequencies of 400 or 700 MHz at temperatures of 23 °C or 50 °C, respectively, using experiments suitable for resonance assignments of glycans 36,44 . 1 H NMR chemical shifts were referenced to internal sodium 3-trimethylsilyl-(2,2,3,3-2 H 4 )-propanoate (δ H 0.0), 13 C chemical shifts were referenced to external dioxane in D 2 O (δ C 67.4) and 31 P chemical shifts were referenced to external 2% H 3 PO 4 in D 2 O (δ P 0.0).…”
Section: Nmr Spectroscopymentioning
confidence: 99%