Yoshitomo Ikai scite author profile

As the first step in establishing our proposed method, the advanced Marfey's method, which is planned for the simultaneous determination of the absolute configuration of amino acids in a peptide, we applied Marfey's method to commercially available amino acids, and the separation behavior was examined in detail. Although good resolution of the diastereomeric pair of an individual amino acid was obtained for all amino acids tested and the applicability of the method was confirmed, the (1-fluoro-2,4-dinitrophenyl)-5-l-alaninamide (FDAA) derivative of the l-amino acid was not always eluted prior to its corresponding d-amino acid derivative. Because this proposed method relies on the elution order of a derivatized amino acid with FDAA to determine its absolute configuration, its separation mechanism was carefully investigated using UV and NMR spectral techniques. The results suggested that the resulting conformations of the l- and d-amino acid derivatives are stable and that the resolution between the l- and d-amino acid derivatives is due to the difference in their hydrophobicity, which is derived from the cis- or trans-type arrangement of two more hydrophobic substituents at both α-carbons of an amino acid and l-alanine amide, so that the FDAA derivative of the cis (Z)-type arrangement interacts more strongly with ODS silica gel and has a longer retention time than that of the trans (E)-type arrangement. Therefore, the l-amino acid derivative is usually eluted from the column before its corresponding d-amino acid derivative in Marfey's method. According to this separation mechanism, the elution order of a desired amino acid can be elucidated from the average retention time of the l- and d-amino acid derivatives, and the dl-serine and -asparagine derivatives are critical for Marfey's method.

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Formation, characterization, and toxicity of the glutathione and cysteine conjugates of toxic heptapeptide microcystins

Kondo

Ikai²,

Oka³

et al. 1992

Chem. Res. Toxicol.

191

128

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Microcystins LR, YR, and RR, cyclic heptapeptide hepatotoxins produced by cyanobacteria, were synthetically converted into glutathione (GSH) and cysteine (Cys) conjugates. Fast atom bombardment mass spectra showed [M + H]+ ions corresponding to GSH and Cys conjugates of microcystins LR, YR, and RR for the obtained compounds. 1H NMR spectral analyses revealed that two singlet signals of olefinic protons of N-methyldehydroalanine (Mdha) in microcystins disappeared in the conjugates, confirming that thiols of GSH and Cys added nucleophilically to the alpha, beta-unsaturated carbonyl of the Mdha moiety. On examination of the 50% lethal dose (LD50) with intravenous injection using mice, both GSH and Cys conjugates showed reduction in toxicity compared with microcystins, but their toxicity still remained. Microcystin LR and its GSH conjugate were separated and identified in a standard mixture by using a frit-fast atom bombardment liquid chromatography/mass spectrometry (Frit-FAB LC/MS) method. Obtained conjugates in the present study would be important compounds as the standard samples for study of metabolism of microcystins, and the Frit-FAB LC/MS method would be applicable to mass spectrometric identification of metabolites of microcystins.

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A method usingL/CMS for determination of absolute configuration of constituent amino acids in peptide --- advanced Marfey's method ---

Harada

Fujii

Mayumi

et al. 1995

Tetrahedron Letters

102

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Application of d,l-FDLA derivatization to determination of absolute configuration of constituent amino acids in peptide by advanced Marfey's method

Harada

Fujii

Hayashi

et al. 1996

Tetrahedron Letters

117

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Yoshitomo Ikai

A Nonempirical Method Using LC/MS for Determination of the Absolute Configuration of Constituent Amino Acids in a Peptide: Combination of Marfey's Method with Mass Spectrometry and Its Practical Application

A Nonempirical Method Using LC/MS for Determination of the Absolute Configuration of Constituent Amino Acids in a Peptide: Elucidation of Limitations of Marfey's Method and of Its Separation Mechanism

Formation, characterization, and toxicity of the glutathione and cysteine conjugates of toxic heptapeptide microcystins

A method usingL/CMS for determination of absolute configuration of constituent amino acids in peptide --- advanced Marfey's method ---

Application of d,l-FDLA derivatization to determination of absolute configuration of constituent amino acids in peptide by advanced Marfey's method

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