Two Mass-Spectrometric Techniques for Quantifying Serine Enantiomers and Glycine in Cerebrospinal Fluid: Potential Confounders and Age-Dependent Ranges | Zendy

Sabine A. Fuchs | Zendy; Monique G.M. de Sainvan der Velden | Zendy; Martina M.J. de Barse | Zendy; Martin W. Roeleveld | Zendy; Margriet W. B. Hendriks | Zendy; L. Dorland | Zendy; Leo W. J. Klomp | Zendy; Ruud Berger | Zendy; Tom J. de Koning | Zendy

Open Access

Two Mass-Spectrometric Techniques for Quantifying Serine Enantiomers and Glycine in Cerebrospinal Fluid: Potential Confounders and Age-Dependent Ranges

Author(s) -

Sabine A. Fuchs,

Monique G.M. de Sainvan der Velden,

Martina M.J. de Barse,

Martin W. Roeleveld,

Margriet W. B. Hendriks,

L. Dorland,

Leo W. J. Klomp,

Ruud Berger,

Tom J. de Koning

Publication year - 2008

Publication title -

clinical chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.705

H-Index - 218

eISSN - 1530-8561

pISSN - 0009-9147

DOI - 10.1373/clinchem.2007.100412

Subject(s) - serine , glycine , derivatization , chromatography , amino acid , chemistry , cerebrospinal fluid , enantiomer , mass spectrometry , biochemistry , stereochemistry , medicine , enzyme

The recent discovery and specific functions of D-amino acids in humans are bound to lead to the revelation of D-amino acid abnormalities in human disorders. Therefore, high-throughput analysis techniques are warranted to determine D-amino acids in biological fluids in a routine laboratory setting.

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