Matteo Pinciroli scite author profile

The natural abundance deuterium NMR characterization of four commercially available samples (Kahlbaum, Aldrich, Fluka, and Extrasynthese) of salicin 1 in comparison with two extractive samples from Salix humboldiana and Salix purpurea L. and with a synthetic material, performed on the pentaacetate derivative 2 and on diacetyl salicyl alcohol 4, is reported. Product 2 from S. humboldiana and the sample from salicin Kahlbaum show mean (D/H)aromatic values of 117 and 121 ppm, whereas, for the remaining, values of 146, 154, 153, and 150 ppm are observed, thus suggesting that salicin Kahlbaum is from extractive origin. The (D/H) values at positions 5' and 6' of the sugar moiety suggest a hypothesis on the origin of the glucose residue discriminating between those deriving from C3 or C4 plants. The analysis of 4, obtained from 3, formed in the beta-glucosidase hydrolysis of salicin 1, reveals in the natural samples from S. purpurea and from Kahlbaum the trend (D/H)4(para) > (DH)3(meta) approximately (D/H)5(meta) > (D/H)6(ortho), the first example of deuterium pattern of an ortho-oxygen-substituted phenylpropanoid. The three samples derived from commercial 1 (Aldrich, Fluka, and Extrasynthese) and the synthetic sample show almost identical deuterium content at positions 4 and 6 (around 153 ppm), whereas for the two meta positions (D/H)3 > (D/H)5 (ca. 162 and 140 ppm, respectively). Product 4, obtained from 3 submitted to acid-catalyzed deuteration, shows different deuterium incorporations in the two meta positions (which are ortho/para to the activating phenolic hydroxyl group), suggesting that possibly the deuterium abundance at the two meta positions may be affected by exchange phenomena with the medium.

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Differentiation of Natural and Synthetic Phenylalanine and Tyrosine through Natural Abundance ²H Nuclear Magnetic Resonance

Brenna

Fronza

Fuganti

et al. 2003

J. Agric. Food Chem.

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The natural abundance deuterium NMR characterization of samples of the amino acids tyrosine (1) and phenylalanine (2), examined as the acetylated methyl esters 4 and 6, has been performed with the aim to identify by these means the contribution in animals of the hydroxylation of the diet l-phenylalanine (2) to the formation of l-tyrosine (1), a feature previously revealed on the same samples through the determination of the phenolic delta(18)O values. The study, which includes also the NMR examination of benzoic acid (5) from 2 and of tyrosol (7) from 1, substantially fails in providing the required information because the mode of deuterium labeling of tyrosine samples of different origins is quite similar but indicates a dramatic difference in the deuterium labeling pattern of the two amino acids 1 and 2. The most relevant variation is with regard to the deuterium enrichments at the CH(2) and CH positions, which are inverted in the two amino acids of natural derivation. Moreover, whereas the diastereotopic benzylic hydrogen atoms of l-tyrosine (1) appear to be equally deuterium enriched, in l-phenylalanine (2) the (D/H)(3)(R)() > (D/H)(3)(S)(). Similarly, benzoic acid (5) shows separate signals for the aromatic deuterium nuclei, which are quite indicative of the natural or synthetic derivation. The mode of deuterium labeling of the side chain of 1 and 2 is tentatively correlated to the different origins of the two amino acids, natural from animal sources for l-tyrosine and biotechnological probably from genetically modified microorganisms for l-phenylalanine.

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