Identification of 3,4-Dihydroxy-2-oxo-butanal (L-threosone) as an Intermediate Compound in Oxidative Degradation of Dehydro-L-ascorbic Acid and 2,3-Diketo-L-gulonic Acid in a Deuterium Oxide Phosphate Buffer

Identification of 3,4-Dihydroxy-2-oxo-butanal (L-threosone) as an Intermediate Compound in Oxidative Degradation of Dehydro-L-ascorbic Acid and 2,3-Diketo-L-gulonic Acid in a Deuterium Oxide Phosphate Buffer

Dehydro-L-ascorbic acid (DAA), an oxidation product of L-ascorbic acid (vitamin C), is unstable in the neutral and basic pH regions. When DAA was incubated in a phosphate buffer with deuterium oxide (pH 7.4), it was degraded to form the main degradation compound, which was identified as 3,4-dihydrox...

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Veröffentlicht in:Bioscience, biotechnology, and biochemistry biotechnology, and biochemistry, 2001-08, Vol.65 (8), p.1707-1712
Hauptverfasser: NISHIKAWA, Yoko, TOYOSHIMA, Yuka, KURATA, Tadao
Format: Artikel
Sprache:eng
Schlagworte:
2,3-Diketogulonic Acid - chemistry
Aldehydes - chemistry
Analytical, structural and metabolic biochemistry
Biological and medical sciences
Buffers
Chromatography, Liquid
Coenzymes, vitamins
degradation
Dehydroascorbic Acid - chemistry
Deuterium Oxide - chemistry
diketo-L-gulonic acid
Fundamental and applied biological sciences. Psychology
Hydrazones - chemistry
L-ascorbic acid
L-threosone
Magnetic Resonance Spectroscopy
Mass Spectrometry
Molecular Weight
Other biological molecules
Oxalic Acid - chemistry
Oxidation-Reduction
Phosphates
Spectrometry, Mass, Fast Atom Bombardment
Spectrophotometry, Ultraviolet
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Zusammenfassung:Dehydro-L-ascorbic acid (DAA), an oxidation product of L-ascorbic acid (vitamin C), is unstable in the neutral and basic pH regions. When DAA was incubated in a phosphate buffer with deuterium oxide (pH 7.4), it was degraded to form the main degradation compound, which was identified as 3,4-dihydroxy-2-oxo-butanal (L-threosone). This compound was also formed from diketo-L-gulonic acid (DKG) in a phosphate buffer with deuterium oxide. L-threosone had reducing activity, probably due to its enolization, and is likely to have been involved in the formation of the reducing activity that was observed in aqueous DAA and DKG solutions. As a reactive dicarbonyl compound, L-threosone might also take some role in the cross-linking of tissue proteins that are formed in vivo in the Maillard reaction.
ISSN:0916-8451
1347-6947
DOI:10.1271/bbb.65.1707