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Lipidomics

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Cover of 'Lipidomics'

Table of Contents

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    Book Overview
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    Chapter 1 Lipid Sample Preparation for Biomedical Research
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    Chapter 2 Lipid Extraction Techniques for Stable Isotope Analysis and Ecological Assays
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    Chapter 3 Isolation of Lipid Raft Proteins from CD133+ Cancer Stem Cells
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    Chapter 4 Isolation of Neuronal Synaptic Membranes by Sucrose Gradient Centrifugation
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    Chapter 5 Sample Preparation and Analysis for Imaging Mass Spectrometry
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    Chapter 6 Direct Measurement of Free and Esterified Cholesterol Mass in Differentiated Human Podocytes: A TLC and Enzymatic Assay-Based Method
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    Chapter 7 High-Performance Chromatographic Separation of Cerebrosides
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    Chapter 8 Lipid Identification by Untargeted Tandem Mass Spectrometry Coupled with Ultra-High-Pressure Liquid Chromatography
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    Chapter 9 Utility of Moderate and High-Resolution Mass Spectrometry for Class-Specific Lipid Identification and Quantification
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    Chapter 10 A Robust Lipidomics Workflow for Mammalian Cells, Plasma, and Tissue Using Liquid-Chromatography High-Resolution Tandem Mass Spectrometry
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    Chapter 11 Combined Use of MALDI-TOF Mass Spectrometry and 31P NMR Spectroscopy for Analysis of Phospholipids
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    Chapter 12 Global Monitoring of the Mammalian Lipidome by Quantitative Shotgun Lipidomics
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    Chapter 13 Bioinformatics Pertinent to Lipid Analysis in Biological Samples
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    Chapter 14 LC–MS-Based Lipidomics and Automated Identification of Lipids Using the LipidBlast In-Silico MS/MS Library
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    Chapter 15 Single-Step Capture and Targeted Metabolomics of Alkyl-Quinolones in Outer Membrane Vesicles of Pseudomonas aeruginosa
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    Chapter 16 Analysis of Fatty Acid and Cholesterol Content from Detergent-Resistant and Detergent-Free Membrane Microdomains
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    Chapter 17 Computational Functional Analysis of Lipid Metabolic Enzymes
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    Chapter 18 Isoprenylation of Monomeric GTPases in Human Trabecular Meshwork Cells
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    Chapter 19 Purification and Validation of Lipid Transfer Proteins
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    Chapter 20 Incorporation of Artificial Lipid-Anchored Proteins into Cultured Mammalian Cells
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    Chapter 21 Sonication-Based Basic Protocol for Liposome Synthesis
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    Chapter 22 On Electrochemical Methods for Determination of Protein-Lipid Interaction
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    Chapter 23 Angiogenesis Model of Cornea to Understand the Role of Sphingosine 1-Phosphate
Attention for Chapter 8: Lipid Identification by Untargeted Tandem Mass Spectrometry Coupled with Ultra-High-Pressure Liquid Chromatography
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Chapter title
Lipid Identification by Untargeted Tandem Mass Spectrometry Coupled with Ultra-High-Pressure Liquid Chromatography
Chapter number 8
Book title
Lipidomics
Published in
Methods in molecular biology, June 2017
DOI 10.1007/978-1-4939-6996-8_8
Pubmed ID
28660575
Book ISBNs
978-1-4939-6995-1, 978-1-4939-6996-8
Authors

Gabriel B. Gugiu

Editors

Sanjoy K. Bhattacharya

Abstract

Lipidomics refers to the large-scale study of lipids in biological systems (Wenk, Nat Rev Drug Discov 4(7):594-610, 2005; Rolim et al., Gene 554(2):131-139, 2015). From a mass spectrometric point of view, by lipidomics we understand targeted or untargeted mass spectrometric analysis of lipids using either liquid chromatography (LC) (Castro-Perez et al., J Proteome Res 9(5):2377-2389, 2010) or shotgun (Han and Gross, Mass Spectrom Rev 24(3):367-412, 2005) approaches coupled with tandem mass spectrometry. This chapter describes the former methodology, which is becoming rapidly the preferred method for lipid identification owing to similarities with established omics workflows, such as proteomics (Washburn et al., Nat Biotechnol 19(3):242-247, 2001) or genomics (Yadav, J Biomol Tech: JBT 18(5):277, 2007). The workflow described consists in lipid extraction using a modified Bligh and Dyer method (Bligh and Dyer, Can J Biochem Physiol 37(8):911-917, 1959), ultra high pressure liquid chromatography fractionation of lipid samples on a reverse phase C18 column, followed by tandem mass spectrometric analysis and in silico database search for lipid identification based on MSMS spectrum matching (Kind et al., Nat Methods 10(8):755-758, 2013; Yamada et al., J Chromatogr A 1292:211-218, 2013; Taguchi and Ishikawa, J Chromatogr A 1217(25):4229-4239, 2010; Peake et al., Thermoscientifices 1-3, 2015) and accurate mass of parent ion (Sud et al., Nucleic Acids Res 35(database issue):D527-D532, 2007; Wishart et al., Nucleic Acids Res 35(database):D521-D526, 2007).

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Mendeley readers

The data shown below were compiled from readership statistics for 5 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 5 100%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 2 40%
Unspecified 1 20%
Researcher 1 20%
Unknown 1 20%
Readers by discipline Count As %
Biochemistry, Genetics and Molecular Biology 2 40%
Unspecified 1 20%
Chemistry 1 20%
Unknown 1 20%

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