Complex Carbohydrate Magnetic Resonance Database (CCMRD)
Carbohydrates are crucial for various life activities in living organisms. The Complex Carbohydrates Magnetic Resonance Database (CCMRD), a solid-state NMR database for complex carbohydrates developed at Michigan State University. The Solid-state NMR spectroscopy reveals the molecular structure and dynamics of insoluble complex carbohydrates.
| Database ID | Trival Name | Linear Code | Compound Class | Taxonomy Domain | Species | Residue | SNFG | Chemical Structure | Chemical Shifts (ppm) | Spectrometer (MHz) | Temperature (K) | pH | NMR Reference Compound | Sample Treatment | Reference |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ccmrd_161 | Cellulose | Glcp | Polysaccharide | plant | Apium graveolens | b-D-Glcp |
|
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C6: 61.4 | 300 | 298.0 | None | ND | Acid hydrolysis and extraction cell | Remco J. Vietor et al., Conformational features of crystal-surface cellulose from higher plants, The Plant journal, 2002 |
| ccmrd_162 | Arabinan | Araf | Polysaccharide | plant | Beta vulgaris | ?-?-Araf |
|
|
C1: 109.0 | 300 | 298.0 | None | ND | Freeze‐dry-rehydrated plant cell | Mazz Marry Keith Roberts S. Juliet Jopson I. Max Huxham Michael C. Jarvis Julia Corsar Eoin Robertson Maureen C. McCann et al., Cell‐cell adhesion in fresh sugar‐beet root parenchyma requires both pectin esters and calcium cross‐links, Physiologia plantarum, 2006 |
| ccmrd_163 | Cellulose | Glcp | Polysaccharide | plant | Beta vulgaris | b-D-Glcp |
|
|
C4: 84.0 | 300 | 298.0 | None | ND | Freeze‐dry-rehydrated plant cell | Mazz Marry Keith Roberts S. Juliet Jopson I. Max Huxham Michael C. Jarvis Julia Corsar Eoin Robertson Maureen C. McCann et al., Cell‐cell adhesion in fresh sugar‐beet root parenchyma requires both pectin esters and calcium cross‐links, Physiologia plantarum, 2006 |
| ccmrd_164 | Cellulose | Glcp | Polysaccharide | plant | Beta vulgaris | b-D-Glcp |
|
|
C4: 89.0 | 300 | 298.0 | None | ND | Freeze‐dry-rehydrated plant cell | Mazz Marry Keith Roberts S. Juliet Jopson I. Max Huxham Michael C. Jarvis Julia Corsar Eoin Robertson Maureen C. McCann et al., Cell‐cell adhesion in fresh sugar‐beet root parenchyma requires both pectin esters and calcium cross‐links, Physiologia plantarum, 2006 |
| ccmrd_165 | Homogalacturonan | GalpA | Polysaccharide | plant | Beta vulgaris | a-D-GalpA |
|
|
C2: 69.0 | 300 | 298.0 | None | ND | Freeze‐dry-rehydrated plant cell | Mazz Marry Keith Roberts S. Juliet Jopson I. Max Huxham Michael C. Jarvis Julia Corsar Eoin Robertson Maureen C. McCann et al., Cell‐cell adhesion in fresh sugar‐beet root parenchyma requires both pectin esters and calcium cross‐links, Physiologia plantarum, 2006 |
| ccmrd_166 | Cellulose | Glcp | Polysaccharide | plant | Vigna radiata (L.) R.Wilczek | b-D-Glcp |
|
|
C1: 105.0, C2: 72.0, C3: 75.0, C4: 84.0, C5: 75.0, C6: 62.0 | 200 | 298.0 | None | ND | Ethanol-treated plant cell | Tracey J. Bootten et al., Solid-state 13C-NMR spectroscopy shows that the xyloglucans in the primary cell walls of mung bean (Vigna radiata L.) occur in different domains: a new model for xyloglucan-cellulose interactions in the cell wall, Journal of experimental botany, 2004 |
| ccmrd_167 | Cellulose | Glcp | Polysaccharide | plant | Vigna radiata (L.) R.Wilczek | b-D-Glcp |
|
|
C1: 105.0, C2: 72.0, C3: 75.0, C4: 89.0, C5: 72.0, C6: 65.0 | 200 | 298.0 | None | ND | Ethanol-treated plant cell | Tracey J. Bootten et al., Solid-state 13C-NMR spectroscopy shows that the xyloglucans in the primary cell walls of mung bean (Vigna radiata L.) occur in different domains: a new model for xyloglucan-cellulose interactions in the cell wall, Journal of experimental botany, 2004 |
| ccmrd_168 | Homogalacturoran | GalpA | Polysaccharide | plant | Vigna radiata (L.) R.Wilczek | ?-?-GalpA |
|
|
C1: 101.0, C2: 69.0, C3: 75.0, C4: 80.0, C5: 75.0 | 200 | 298.0 | None | ND | Ethanol-treated plant cell | Tracey J. Bootten et al., Solid-state 13C-NMR spectroscopy shows that the xyloglucans in the primary cell walls of mung bean (Vigna radiata L.) occur in different domains: a new model for xyloglucan-cellulose interactions in the cell wall, Journal of experimental botany, 2004 |
| ccmrd_169 | Xyloglucan | [aDXylp(1-6)](1-4)bDGlcp | Polysaccharide | plant | Vigna radiata (L.) R.Wilczek | b-D-Glcp |
|
|
C1: 105.0, C2: 72.0, C3: 75.0, C4: 84.0, C5: 75.0, C6: 62.0 | 200 | 298.0 | None | ND | Ethanol-treated plant cell | Tracey J. Bootten et al., Solid-state 13C-NMR spectroscopy shows that the xyloglucans in the primary cell walls of mung bean (Vigna radiata L.) occur in different domains: a new model for xyloglucan-cellulose interactions in the cell wall, Journal of experimental botany, 2004 |
| ccmrd_170 | Xyloglucan | [aDXylp(1-6)](1-4)bDGlcp | Polysaccharide | plant | Vigna radiata (L.) R.Wilczek | b-D-Glcp |
|
|
C1: 105.0, C2: 72.0, C3: 75.0, C4: 80.0, C5: 75.0, C6: 62.0 | 200 | 298.0 | None | ND | Ethanol-treated plant cell | Tracey J. Bootten et al., Solid-state 13C-NMR spectroscopy shows that the xyloglucans in the primary cell walls of mung bean (Vigna radiata L.) occur in different domains: a new model for xyloglucan-cellulose interactions in the cell wall, Journal of experimental botany, 2004 |