Differential mobility-mass spectrometry double spike isotope dilution study of release of β-methylaminoalanine and proteinogenic amino acids during biological sample hydrolysis

Par Conseil national de recherches du Canada

Téléchargement	Voir la version finale : Differential mobility-mass spectrometry double spike isotope dilution study of release of β-methylaminoalanine and proteinogenic amino acids during biological sample hydrolysis (PDF, 1.2 Mio)
DOI	Trouver le DOI : https://doi.org/10.1038/s41598-017-18392-w
Auteur	Rechercher : Beach, Daniel G.¹; Rechercher : Kerrin, Elliott S.¹; Rechercher : Giddings, Sabrina D.¹; Rechercher : Quilliam, Michael A.¹; Rechercher : Mccarron, Pearse¹
Affiliation	Conseil national de recherches du Canada. Science des mesures et étalons
Format	Texte, Article
Résumé	The non-protein amino acid β-methylamino-L-alanine (BMAA) has been linked to neurodegenerative disease and reported throughout the environment. Proposed mechanisms of bioaccumulation, trophic transfer and chronic toxicity of BMAA rely on the hypothesis of protein misincorporation. Poorly selective methods for BMAA analysis have led to controversy. Here, a recently reported highly selective method for BMAA quantitation using hydrophilic interaction liquid chromatography-differential mobility spectrometry-tandem mass spectrometry (HILIC-DMS-MS/MS) is expanded to include proteinogenic amino acids from hydrolyzed biological samples. For BMAA quantitation, we present a double spiking isotope dilution approach using D3-BMAA and 13C15N2-BMAA. These methods were applied to study release of BMAA during acid hydrolysis under a variety of conditions, revealing that the majority of BMAA can be extracted along with only a small proportion of protein. A time course hydrolysis of BMAA from mussel tissue was carried out to assess the recovery of BMAA during sample preparation. The majority of BMAA measured by typical methods was released before a significant proportion of protein was hydrolyzed. Little change was observed in protein hydrolysis beyond typical hydrolysis times but the concentration of BMAA increased linearly. These findings demonstrate protein misincorporation is not the predominant form of BMAA in cycad and shellfish.
Date de publication	2018-01-08
Maison d’édition	Nature Publishing Group
Dans	Scientific Reports 8, nº 1.
Autre format	Beach, Daniel G, Elliott S. Kerrin, Sabrina D. Giddings, Michael A. Quilliam, et Pearse McCarron. « Differential mobility-mass spectrometry double spike isotope dilution study of release of β-methylaminoalanine and proteinogenic amino acids during biological sample hydrolysis ». National Research Council of Canada. Measurement Science and Standards, 6 décembre 2017. https://doi.org/10.4224/23002708.
Langue	anglais
Publications évaluées par des pairs	Oui
Numéro NPARC	23003590
Exporter la notice	Exporter en format RIS
Signaler une correction	Signaler une correction (s'ouvre dans un nouvel onglet)
Identificateur de l’enregistrement	b86c33a9-2267-43bd-acdc-6ac24cef753b
Enregistrement créé	2018-07-20
Enregistrement modifié	2020-05-30

Date de modification :: 2024-06-30