Lipid and Glycolipid Isomer Analyses Using Ultra-High Resolution Ion Mobility Spectrometry Separations

Lipid and Glycolipid Isomer Analyses Using Ultra-High Resolution Ion Mobility Spectrometry Separations

Understanding the biological roles and mechanisms of lipids and glycolipids is challenging due to the vast number of possible isomers that may exist. Mass spectrometry (MS) measurements are currently the dominant approach for studying and providing detailed information on lipid and glycolipid presen...

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Bibliographic Details
Published in:International journal of molecular sciences Vol. 18; no. 1; p. 183
Main Authors: Wojcik, Roza, Webb, Ian K, Deng, Liulin, Garimella, Sandilya V B, Prost, Spencer A, Ibrahim, Yehia M, Baker, Erin S, Smith, Richard D
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 18-01-2017
MDPI
Subjects:
BASIC BIOLOGICAL SCIENCES
Biological activity
Environmental Molecular Sciences Laboratory
Glycan
Glycolipids
Glycolipids - chemistry
Glycolipids - isolation & purification
High resolution
ion mobility spectrometry
Ionic mobility
Ions
Isomerism
Isomers
Lipids
Mass spectrometry
Mass Spectrometry - methods
Mass spectroscopy
Mobility
Scientific imaging
Serpentine
Spectroscopy
Traveling waves
ion mobility spectrometry
glycolipids
lipids
isomers
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Summary:Understanding the biological roles and mechanisms of lipids and glycolipids is challenging due to the vast number of possible isomers that may exist. Mass spectrometry (MS) measurements are currently the dominant approach for studying and providing detailed information on lipid and glycolipid presence and changes. However, difficulties in distinguishing the many structural isomers, due to the distinct lipid acyl chain positions, double bond locations or specific glycan types, inhibit the delineation and assignment of their biological roles. Here we utilized ultra-high resolution ion mobility spectrometry (IMS) separations by applying traveling waves in a serpentine multi-pass Structures for Lossless Ion Manipulations (SLIM) platform to enhance the separation of selected lipid and glycolipid isomers. The multi-pass arrangement allowed the investigation of paths ranging from ~16 m (one pass) to ~60 m (four passes) for the distinction of lipids and glycolipids with extremely small structural differences. These ultra-high resolution SLIM IMS-MS analyses provide a foundation for exploring and better understanding isomer-specific biological activities and disease processes.
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USDOE
AC05-76RL01830
PNNL-SA-122274
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms18010183