Applications of nuclear magnetic resonance in lipid analyses: An emerging powerful tool for lipidomics studies

The role of lipids in cell, tissue, and organ physiology is crucial; as many diseases, including cancer, diabetes, neurodegenerative, and infectious diseases, are closely related to absorption and metabolism of lipids. Mass spectrometry (MS) based methods are the most developed powerful tools to stu...

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Published inProgress in lipid research Vol. 68; pp. 37 - 56
Main Authors Li, Jingbo, Vosegaard, Thomas, Guo, Zheng
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.10.2017
Subjects
Computational Biology - methods
Disease
Food adulteration
Humans
Lipid analysis
Lipid Metabolism
Lipidomics
Lipids - chemistry
Magnetic Resonance Spectroscopy - methods
Metabolites
Nuclear magnetic resonance (NMR)
PS
Disease
SPE
TOCSY
TLC
Cs
CDTA
HDL
PEe
CHCl3
Metabolites
LDL
FTIR
CDCl3
SM
GC
HPLC
D2O
AD
SDS
NOE
MS
CAD
Lipid analysis
Cr(acac)3
Lipidomics
LC-NMR
EDTA
Food adulteration
PA
NMR
PC
PE
MeOH
PLs
PG
EPA
PI
TAG
DHA
HSQC
PUFAs
DHSM
Nuclear magnetic resonance (NMR)
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Abstract The role of lipids in cell, tissue, and organ physiology is crucial; as many diseases, including cancer, diabetes, neurodegenerative, and infectious diseases, are closely related to absorption and metabolism of lipids. Mass spectrometry (MS) based methods are the most developed powerful tools to study the synthetic pathways and metabolic networks of cellular lipids in biological systems; leading to the birth of an emerging subject lipidomics, which has been extensively reviewed. Nuclear magnetic resonance (NMR), another powerful analytical tool, which allows the visualization of single atoms and molecules, is receiving increasing attention in lipidomics analyses. However, very little work focusing on lipidomic studies using NMR has been critically reviewed. This paper presents a first comprehensive summary of application of 1H, 13C &31P NMR in lipids and lipidomics analyses. The scientific basis, principles and characteristic diagnostic peaks assigned to specific atoms/molecular structures of lipids are presented. Applications of 2D NMR in mapping and monitoring of the components and their changes in complex lipids systems, as well as alteration of lipid profiling over disease development are also reviewed. The applications of NMR lipidomics in diseases diagnosis and food adulteration are exemplified.
AbstractList The role of lipids in cell, tissue, and organ physiology is crucial; as many diseases, including cancer, diabetes, neurodegenerative, and infectious diseases, are closely related to absorption and metabolism of lipids. Mass spectrometry (MS) based methods are the most developed powerful tools to study the synthetic pathways and metabolic networks of cellular lipids in biological systems; leading to the birth of an emerging subject lipidomics, which has been extensively reviewed. Nuclear magnetic resonance (NMR), another powerful analytical tool, which allows the visualization of single atoms and molecules, is receiving increasing attention in lipidomics analyses. However, very little work focusing on lipidomic studies using NMR has been critically reviewed. This paper presents a first comprehensive summary of application of 1H, 13C &31P NMR in lipids and lipidomics analyses. The scientific basis, principles and characteristic diagnostic peaks assigned to specific atoms/molecular structures of lipids are presented. Applications of 2D NMR in mapping and monitoring of the components and their changes in complex lipids systems, as well as alteration of lipid profiling over disease development are also reviewed. The applications of NMR lipidomics in diseases diagnosis and food adulteration are exemplified.The role of lipids in cell, tissue, and organ physiology is crucial; as many diseases, including cancer, diabetes, neurodegenerative, and infectious diseases, are closely related to absorption and metabolism of lipids. Mass spectrometry (MS) based methods are the most developed powerful tools to study the synthetic pathways and metabolic networks of cellular lipids in biological systems; leading to the birth of an emerging subject lipidomics, which has been extensively reviewed. Nuclear magnetic resonance (NMR), another powerful analytical tool, which allows the visualization of single atoms and molecules, is receiving increasing attention in lipidomics analyses. However, very little work focusing on lipidomic studies using NMR has been critically reviewed. This paper presents a first comprehensive summary of application of 1H, 13C &31P NMR in lipids and lipidomics analyses. The scientific basis, principles and characteristic diagnostic peaks assigned to specific atoms/molecular structures of lipids are presented. Applications of 2D NMR in mapping and monitoring of the components and their changes in complex lipids systems, as well as alteration of lipid profiling over disease development are also reviewed. The applications of NMR lipidomics in diseases diagnosis and food adulteration are exemplified.
The role of lipids in cell, tissue, and organ physiology is crucial; as many diseases, including cancer, diabetes, neurodegenerative, and infectious diseases, are closely related to absorption and metabolism of lipids. Mass spectrometry (MS) based methods are the most developed powerful tools to study the synthetic pathways and metabolic networks of cellular lipids in biological systems; leading to the birth of an emerging subject lipidomics, which has been extensively reviewed. Nuclear magnetic resonance (NMR), another powerful analytical tool, which allows the visualization of single atoms and molecules, is receiving increasing attention in lipidomics analyses. However, very little work focusing on lipidomic studies using NMR has been critically reviewed. This paper presents a first comprehensive summary of application of H, C & P NMR in lipids and lipidomics analyses. The scientific basis, principles and characteristic diagnostic peaks assigned to specific atoms/molecular structures of lipids are presented. Applications of 2D NMR in mapping and monitoring of the components and their changes in complex lipids systems, as well as alteration of lipid profiling over disease development are also reviewed. The applications of NMR lipidomics in diseases diagnosis and food adulteration are exemplified.
The role of lipids in cell, tissue, and organ physiology is crucial; as many diseases, including cancer, diabetes, neurodegenerative, and infectious diseases, are closely related to absorption and metabolism of lipids. Mass spectrometry (MS) based methods are the most developed powerful tools to study the synthetic pathways and metabolic networks of cellular lipids in biological systems; leading to the birth of an emerging subject lipidomics, which has been extensively reviewed. Nuclear magnetic resonance (NMR), another powerful analytical tool, which allows the visualization of single atoms and molecules, is receiving increasing attention in lipidomics analyses. However, very little work focusing on lipidomic studies using NMR has been critically reviewed. This paper presents a first comprehensive summary of application of 1H, 13C &31P NMR in lipids and lipidomics analyses. The scientific basis, principles and characteristic diagnostic peaks assigned to specific atoms/molecular structures of lipids are presented. Applications of 2D NMR in mapping and monitoring of the components and their changes in complex lipids systems, as well as alteration of lipid profiling over disease development are also reviewed. The applications of NMR lipidomics in diseases diagnosis and food adulteration are exemplified.
Author Vosegaard, Thomas
Guo, Zheng
Li, Jingbo
Author_xml – sequence: 1
  givenname: Jingbo
  surname: Li
  fullname: Li, Jingbo
  email: jingboli@eng.au.dk, jingboli@jnu.edu.cn
  organization: Department of Engineering, Faculty of Science, Aarhus University, Gustav Wieds Vej 10, 8000 Aarhus C, Denmark
– sequence: 2
  givenname: Thomas
  orcidid: 0000-0001-5414-4550
  surname: Vosegaard
  fullname: Vosegaard, Thomas
  email: tv@chem.au.dk
  organization: Danish Center for Ultrahigh-Field NMR Spectroscopy, Interdisciplinary Nanoscience Center and Department of Chemistry, Aarhus University, Gustav Wieds Vej 14, 8000 Aarhus C, Denmark
– sequence: 3
  givenname: Zheng
  surname: Guo
  fullname: Guo, Zheng
  email: guo@eng.au.dk, guo@mb.au.dk
  organization: Department of Engineering, Faculty of Science, Aarhus University, Gustav Wieds Vej 10, 8000 Aarhus C, Denmark
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Keywords PS
Disease
SPE
TOCSY
TLC
Cs
CDTA
HDL
PEe
CHCl3
Metabolites
LDL
FTIR
CDCl3
SM
GC
HPLC
D2O
AD
SDS
NOE
MS
CAD
Lipid analysis
Cr(acac)3
Lipidomics
LC-NMR
EDTA
Food adulteration
PA
NMR
PC
PE
MeOH
PLs
PG
EPA
PI
TAG
DHA
HSQC
PUFAs
DHSM
Nuclear magnetic resonance (NMR)
Language English
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PublicationDateYYYYMMDD 2017-10-01
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  year: 2017
  text: October 2017
PublicationDecade 2010
PublicationPlace England
PublicationPlace_xml – name: England
PublicationTitle Progress in lipid research
PublicationTitleAlternate Prog Lipid Res
PublicationYear 2017
Publisher Elsevier Ltd
Publisher_xml – name: Elsevier Ltd
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Snippet The role of lipids in cell, tissue, and organ physiology is crucial; as many diseases, including cancer, diabetes, neurodegenerative, and infectious diseases,...
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SubjectTerms Computational Biology - methods
Disease
Food adulteration
Humans
Lipid analysis
Lipid Metabolism
Lipidomics
Lipids - chemistry
Magnetic Resonance Spectroscopy - methods
Metabolites
Nuclear magnetic resonance (NMR)
Title Applications of nuclear magnetic resonance in lipid analyses: An emerging powerful tool for lipidomics studies
URI https://dx.doi.org/10.1016/j.plipres.2017.09.003
https://www.ncbi.nlm.nih.gov/pubmed/28911967
https://www.proquest.com/docview/1940049147
Volume 68
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