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_243 | Cellulose | Glcp | Polysaccharide | plant | Chamaecyparis obtusa | b-D-Glcp |
|
|
C1: 105.2, C2: 72.4, C3: 74.3, C4: 89.4, C5: 72.4, C6: 65.3 | 400 | 291.0 | None | ND | Ball-milled and heat-dried wood | Masakazu Nishida et al., Integrated analysis of modified Japanese cypress using solid-state NMR spectra and nuclear magnetic relaxation times, Cellulose, 2019 |
| ccmrd_244 | Cellulose | Glcp | Polysaccharide | plant | Chamaecyparis obtusa | b-D-Glcp |
|
|
C1: 105.4, C2: 72.3, C3: 74.8, C4: 82.7, C5: 74.8 | 400 | 291.0 | None | ND | Ball-milled and heat-dried wood | Masakazu Nishida et al., Integrated analysis of modified Japanese cypress using solid-state NMR spectra and nuclear magnetic relaxation times, Cellulose, 2019 |
| ccmrd_245 | Cellulose | Glcp | Polysaccharide | plant | Chamaecyparis obtusa | b-D-Glcp |
|
|
C1: 105.4, C2: 72.3, C3: 74.8, C4: 89.3, C5: 72.3, C6: 65.3 | 400 | 291.0 | None | ND | Ball-milled and heat-dried wood | Masakazu Nishida et al., Integrated analysis of modified Japanese cypress using solid-state NMR spectra and nuclear magnetic relaxation times, Cellulose, 2019 |
| ccmrd_246 | Cellulose | Glcp | Polysaccharide | plant | Chamaecyparis obtusa | b-D-Glcp |
|
|
C1: 105.0, C2: 72.4, C3: 74.3, C4: 84.3, C5: 72.4, C6: 63.0 | 400 | 291.0 | None | ND | Ball-milled and heat-dried wood | Masakazu Nishida et al., Integrated analysis of modified Japanese cypress using solid-state NMR spectra and nuclear magnetic relaxation times, Cellulose, 2019 |
| ccmrd_247 | Cellulose | Glcp | Polysaccharide | plant | Chamaecyparis obtusa | b-D-Glcp |
|
|
C1: 105.0, C2: 72.4, C3: 74.3, C4: 89.8, C5: 72.4, C6: 65.4 | 400 | 291.0 | None | ND | Ball-milled and heat-dried wood | Masakazu Nishida et al., Integrated analysis of modified Japanese cypress using solid-state NMR spectra and nuclear magnetic relaxation times, Cellulose, 2019 |
| ccmrd_248 | Cellulose | Glcp | Polysaccharide | plant | Chamaecyparis obtusa | b-D-Glcp |
|
|
C2: 73.7, C3: 73.7, C5: 73.7, C6: 62.2 | 400 | 291.0 | None | ND | Ball-milled and heat-dried wood | Masakazu Nishida et al., Integrated analysis of modified Japanese cypress using solid-state NMR spectra and nuclear magnetic relaxation times, Cellulose, 2019 |
| ccmrd_249 | Cellulose | Glcp | Polysaccharide | bacteria | Saccharomyces cereuisiae | b-D-Glcp |
|
|
C1: 103.2, C2: 73.7, C3: 85.0, C5: 76.2 | 200 | 298.0 | None | DTBB | Dried | Eduardo Krainer et al., Direct observation of cell wall glucans in whole cells of Saccharomyces cerevisiae by magic-angle spinning 13C-NMR, Biopolymers, 1994 |
| ccmrd_250 | Cellulose | Glcp | Polysaccharide | bacteria | Saccharomyces cereuisiae | b-D-Glcp |
|
|
C1: 102.4, C2: 75.2, C3: 78.6, C5: 76.2 | 200 | 298.0 | None | DTBB | Dried | Eduardo Krainer et al., Direct observation of cell wall glucans in whole cells of Saccharomyces cerevisiae by magic-angle spinning 13C-NMR, Biopolymers, 1994 |
| ccmrd_251 | Cellulose | Glcp | Polysaccharide | bacteria | Saccharomyces cereuisiae | b-D-Glcp |
|
|
C1: 100.9 | 200 | 298.0 | None | DTBB | Dried | Eduardo Krainer et al., Direct observation of cell wall glucans in whole cells of Saccharomyces cerevisiae by magic-angle spinning 13C-NMR, Biopolymers, 1994 |
| ccmrd_252 | Cellulose | Glcp | Polysaccharide | bacteria | Saccharomyces cereuisiae | ?-D-Glcp |
|
|
C1: 99.9 | 200 | 298.0 | None | DTBB | Dried | Eduardo Krainer et al., Direct observation of cell wall glucans in whole cells of Saccharomyces cerevisiae by magic-angle spinning 13C-NMR, Biopolymers, 1994 |