Determination of the natural deuterium distribution in glucose from plants having different photosynthetic pathways
Autor: | Ben-Li Zhang, Gérard J. Martin, Maryvonne L. Martin, J.Michael Williams, Bernadette Quemerais |
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Rok vydání: | 1994 |
Předmět: |
Hydrogen
Isotope Radiochemistry Analytical chemistry food and beverages chemistry.chemical_element Plant Science General Medicine Nuclear magnetic resonance spectroscopy Metabolism Photosynthesis Biochemistry Analytical Chemistry Isotopomers Isotope fractionation Complementary and alternative medicine Deuterium chemistry Drug Discovery Molecular Medicine Food Science |
Zdroj: | Phytochemical Analysis. 5:105-110 |
ISSN: | 1099-1565 0958-0344 |
DOI: | 10.1002/pca.2800050304 |
Popis: | The site-specific natural isotope fractionation of hydrogen in glucose was investigated by nuclear magnetic resonance spectroscopy (SNIF-NMR). Several glucose samples obtained from plants undergoing either C, (potato, barley, sunflower, wheat) or C4 (maize, sorghum) photosynthetic metabolism were investigated. Since the glucose molecule is not suitable for direct SNIF-NMR analysis, several kinds of derivatives were synthesized. Three clusters of isotopomers were identified in glucose penta-acetate which is easily prepared. Up to 5-6 sites could be distinguished in 6 other derivatives. An integrated statistical analysis of the whole sets of cluster lines was performed in order to determine the individual isotope contents in the carbon-bound hydrogen positions of the glucose skeleton. Both the mole fractions of the monodeuterated isotopomers and the deuterium/hydrogen ratios of the individual sites thus become accessible. Using this approach, it is shown that similar trends in the isotopic distribution are exhibited within a given photosynthetic C3 or C4 family. Larger deviations with respect to a statistical distribution of deuterium are observed in glucose from C3 plants as compared to C4 plants. The methylenic sites 6,6' in particular are significantly depleted in C, glucose as compared to C4 glucose. |
Databáze: | OpenAIRE |
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