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.

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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_588 Cellulose_Crystalline Glcp Polysaccharide plant Sorghum b-D-Glcp Cellulose_Crystalline SNFG Cellulose_Crystalline C1: 105.2, C2: 72.8, C3: 75.1, C4: 88.1, C5: 72.8, C6: 64.8 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_589 Cellulose_Crystalline Glcp Polysaccharide plant Sorghum b-D-Glcp Cellulose_Crystalline SNFG Cellulose_Crystalline C1: 105.2, C2: 72.8, C3: 75.8, C4: 89.0, C5: 72.6, C6: 65.4 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_590 Cellulose_Crystalline Glcp Polysaccharide plant Sorghum b-D-Glcp Cellulose_Crystalline SNFG Cellulose_Crystalline C1: 105.2, C2: 72.8, C3: 75.8, C4: 89.5, C5: 73.0, C6: 65.3 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_591 Cellulose_Amorphous Glcp Polysaccharide plant Sorghum b-D-Glcp Cellulose_Amorphous SNFG Cellulose_Amorphous C1: 105.2, C2: 72.8, C3: 75.1, C4: 83.8, C5: 75.1, C6: 61.8 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_592 Cellulose_Amorphous Glcp Polysaccharide plant Sorghum b-D-Glcp Cellulose_Amorphous SNFG Cellulose_Amorphous C1: 105.2, C2: 72.8, C3: 75.4, C4: 84.1, C5: 75.4, C6: 62.2 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_593 Cellulose_Amorphous Glcp Polysaccharide plant Sorghum b-D-Glcp Cellulose_Amorphous SNFG Cellulose_Amorphous C1: 105.2, C2: 72.8, C3: 75.8, C4: 84.7, C5: 75.8, C6: 62.5 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_594 Xylan_2-fold Xylp Polysaccharide plant Sorghum ?-?-Xylp Xylan_2-fold SNFG Xylan_2-fold C1: 105.1, C2: 72.3, C3: 75.3, C4: 82.1, C5: 64.1 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_595 Xylan_3-fold Xylp Polysaccharide plant Sorghum ?-?-Xylp Xylan_3-fold SNFG Xylan_3-fold C1: 102.5, C2: 73.7, C3: 74.7, C4: 77.3, C5: 63.8 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_596 Xylan_3-fold_arbinose-substituted Xylp Polysaccharide plant Sorghum ?-?-Xylp Xylan_3-fold_arbinose-substituted SNFG Xylan_3-fold_arbinose-substituted C1: 102.5, C2: 74.0, C3: 76.7, C4: 74.6, C5: 63.6 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020
ccmrd_597 Arabinan Araf Polysaccharide plant Sorghum ?-?-Araf Arabinan SNFG Arabinan C1: 108.4, C2: 81.8, C3: 78.2, C4: 85.6, C5: 62.4 850 298.0 None TMS whole cell Yu Gao et al., A grass-specific cellulose–xylan interaction dominates in sorghum secondary cell walls, NATURE COMMUNICATIONS, 2020