Your search keyword '"Vaccinium classification"' showing total 2 results

1. Developing qualitative LC-MS methods for characterization of Vaccinium berry Standard Reference Materials.

Author

Lowenthal MS, Phillips MM, Rimmer CA, Rudnick PA, Simón-Manso Y, Stein SE, Tchekhovskoi D, and Phinney KW

Subjects

Chromatography, Liquid methods, Databases, Protein, Expressed Sequence Tags, Fruit classification, Fruit genetics, Mass Spectrometry methods, Proteomics, Reference Standards, Reference Values, Vaccinium classification, Vaccinium genetics, Chromatography, Liquid standards, Fruit chemistry, Mass Spectrometry standards, Metabolome, Vaccinium chemistry

Abstract

Standard Reference Materials (SRMs) offer the scientific community a stable and homogenous source of material that holds countless application possibilities. Traditionally, the National Institute of Standards and Technology (NIST) has provided SRMs with associated quantitative information (certified values) for a select group of targeted analytes as measured in a solution or complex matrix. While the current needs of the SRM community are expanding to include non-quantitative data, NIST is attempting to broaden the scope of how and what information is offered to the SRM community by providing qualitative information about biomaterials, such as chromatographic fingerprints and profiles of untargeted identifications. In this work, metabolomic and proteomic profiling efforts were employed to characterize a suite of six Vaccinium berry SRMs. In the discovery phase, liquid chromatography-tandem mass spectrometry (LC-MS/MS) data was matched to mass spectral libraries; a subsequent validation phase based on multiple-reaction monitoring LC-MS/MS relied on both retention time matching of authentic standards along with fragmentation data for a qualitative overview of the most prominent organic compounds present. Definitive and putative identifications were determined for over 70 metabolites based on reporting guidelines set forth by the Metabolomics Standards Initiative (Metabolomics 3(3):211-221, 2007), and the capability of electrospray ionization mass spectrometry (ESI-MS) to profile untargeted metabolites within a complex matrix using mass spectral matching is demonstrated. Bottom-up proteomic analyses were possible using peptide databases translated from expressed sequence tags (ESTs). Homology searches provided identification of novel Vaccinium proteins based on homology to related genera. Chromatographic fingerprints of these berry materials were acquired for supplemental qualitative information to be provided to users of these SRMs. An unbounded set of qualitative data about a biomaterial is a valuable complement to quantitative information traditionally provided in NIST Certificates of Analysis.

Published

2013

2. Characterizing Vaccinium berry Standard Reference Materials by GC-MS using NIST spectral libraries.

Author

Lowenthal MS, Andriamaharavo NR, Stein SE, and Phinney KW

Subjects

Databases, Factual, Fruit classification, Fruit genetics, Gas Chromatography-Mass Spectrometry methods, Liquid Phase Microextraction, Proteomics, Reference Standards, Reference Values, Vaccinium classification, Vaccinium genetics, Fruit chemistry, Gas Chromatography-Mass Spectrometry standards, Metabolome, Vaccinium chemistry

Abstract

A gas chromatography-mass spectrometry (GC-MS)-based method was developed for qualitative characterization of metabolites found in Vaccinium fruit (berry) dietary supplement Standard Reference Materials (SRMs). Definitive identifications are provided for 98 unique metabolites determined among six Vaccinium-related SRMs. Metabolites were enriched using an organic liquid/liquid extraction, and derivatized prior to GC-MS analysis. Electron ionization (EI) fragmentation spectra were searched against EI spectra of authentic standards compiled in the National Institute of Standards and Technology's mass spectral libraries, as well as spectra selected from the literature. Metabolite identifications were further validated using a retention index match along with prior probabilities and were compared with results obtained in a previous effort using collision-induced dissociation (CID) MS/MS datasets from liquid chromatography coupled to mass spectrometry experiments. This manuscript describes a nontargeted metabolite profile of Vaccinium materials, compares results among related materials and from orthogonal experimental platforms, and discusses the feasibility and development of using mass spectral library matching for nontargeted metabolite identification.

Published

2013