AI Article Synopsis
- Amadori compounds were synthesized by reacting D-glucose with various aliphatic amino acids, resulting in derivatives from glycine, beta-alanine, and others.
- Analytical techniques like FAB mass spectrometry and NMR showed molecular characteristics and conformational instability, with the beta-pyranose form being predominant in solution.
- The pK alpha values measured via potentiometric titration revealed a decrease in basicity for the amino and carboxyl groups compared to the original amino acids, indicating structural changes due to the Amadori modification.
Article Abstract
Amadori compounds (1-amino-1-deoxy-D-fructose derivatives) were prepared by reacting D-glucose with a series of aliphatic amino acids. These include Amadori compounds derived from glycine (1), beta-alanine (2), gamma-amino butyric acid (3), delta-aminovaleric acid (4), epsilon-amino-caproic acid (5) and N alpha-formyl-L-lysine (6). In the FAB mass spectra, molecular-ion clusters as well as fragment ions corresponding to loss of water or CO2 molecules were observed. The 13C NMR spectra indicate that all the compounds are conformationally unstable, but that the predominant form present in solution (D2O) is the beta-pyranose form. The 1H NMR spectra of 1 and 2 indicate a slow rotation around the C-1-C-2 bond, possibly as a result of an intramolecular hydrogen bond involving the carboxyl group. The pK alpha's of all compounds were measured by pH-potentiometric titration in 0.2 M KNO3 solution at 25 degrees C. All compounds showed a decrease in the basicity of their amino groups (in the order of approximately 1.5 of the K alpha value), and 1 and 2 showed a decrease in the basicity of their carboxyl groups (in the order of approximately 0.2) in comparison with that of parent amino acids.
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| http://dx.doi.org/10.1016/0008-6215(94)84183-7 | DOI Listing |
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