Plant metabolomics by GC-MS and differential analysis.

Joel L. Shuman; Diego F. Cortes; Jenny M. Armenta; Revonda M. Pokrzywa; Pedro Mendes; Vladimir Shulaev

Plant metabolomics by GC-MS and differential analysis.

Joel L. Shuman, Diego F. Cortes, Jenny M. Armenta, Revonda M. Pokrzywa, Pedro Mendes, Vladimir Shulaev

Research output: Chapter in Book/Conference proceeding › Chapter

Abstract

Metabolomics is a new genomics approach that aims at measuring all or a subset of metabolites in the cell. Several approaches to plant metabolomics are currently used in plant research. These include targeted analysis, metabolite profiling, and metabolic fingerprinting. Metabolic fingerprinting, unlike metabolite profiling, does not aim at separating or identifying all the metabolites present in the sample, but rather generates a fingerprint that characterizes a specific metabolic state of the plant system under investigation. This chapter describes the implementation of metabolic fingerprinting approach using gas chromatography coupled to mass spectrometry (GC-MS) and discriminant function analysis combined with genetic algorithm (GA-DFA). This approach enables the identification of specific metabolites that are biologically relevant, and which may go undetected if direct infusion-based fingerprinting approaches were used due to the sample complexity and matrix suppression effects.

Original language	English
Title of host publication	Methods in molecular biology (Clifton, N.J.)\|Methods Mol. Biol.
Subtitle of host publication	Plant Reverse Genetics: Methods and Protocols
Publisher	Springer Nature
Pages	229-246
Number of pages	17
Volume	678
Publication status	Published - 2011

Cite this

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title = "Plant metabolomics by GC-MS and differential analysis.",

abstract = "Metabolomics is a new genomics approach that aims at measuring all or a subset of metabolites in the cell. Several approaches to plant metabolomics are currently used in plant research. These include targeted analysis, metabolite profiling, and metabolic fingerprinting. Metabolic fingerprinting, unlike metabolite profiling, does not aim at separating or identifying all the metabolites present in the sample, but rather generates a fingerprint that characterizes a specific metabolic state of the plant system under investigation. This chapter describes the implementation of metabolic fingerprinting approach using gas chromatography coupled to mass spectrometry (GC-MS) and discriminant function analysis combined with genetic algorithm (GA-DFA). This approach enables the identification of specific metabolites that are biologically relevant, and which may go undetected if direct infusion-based fingerprinting approaches were used due to the sample complexity and matrix suppression effects.",

author = "Shuman, {Joel L.} and Cortes, {Diego F.} and Armenta, {Jenny M.} and Pokrzywa, {Revonda M.} and Pedro Mendes and Vladimir Shulaev",

year = "2011",

language = "English",

volume = "678",

pages = "229--246",

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T1 - Plant metabolomics by GC-MS and differential analysis.

AU - Shuman, Joel L.

AU - Cortes, Diego F.

AU - Armenta, Jenny M.

AU - Pokrzywa, Revonda M.

AU - Mendes, Pedro

AU - Shulaev, Vladimir

PY - 2011

Y1 - 2011

N2 - Metabolomics is a new genomics approach that aims at measuring all or a subset of metabolites in the cell. Several approaches to plant metabolomics are currently used in plant research. These include targeted analysis, metabolite profiling, and metabolic fingerprinting. Metabolic fingerprinting, unlike metabolite profiling, does not aim at separating or identifying all the metabolites present in the sample, but rather generates a fingerprint that characterizes a specific metabolic state of the plant system under investigation. This chapter describes the implementation of metabolic fingerprinting approach using gas chromatography coupled to mass spectrometry (GC-MS) and discriminant function analysis combined with genetic algorithm (GA-DFA). This approach enables the identification of specific metabolites that are biologically relevant, and which may go undetected if direct infusion-based fingerprinting approaches were used due to the sample complexity and matrix suppression effects.

AB - Metabolomics is a new genomics approach that aims at measuring all or a subset of metabolites in the cell. Several approaches to plant metabolomics are currently used in plant research. These include targeted analysis, metabolite profiling, and metabolic fingerprinting. Metabolic fingerprinting, unlike metabolite profiling, does not aim at separating or identifying all the metabolites present in the sample, but rather generates a fingerprint that characterizes a specific metabolic state of the plant system under investigation. This chapter describes the implementation of metabolic fingerprinting approach using gas chromatography coupled to mass spectrometry (GC-MS) and discriminant function analysis combined with genetic algorithm (GA-DFA). This approach enables the identification of specific metabolites that are biologically relevant, and which may go undetected if direct infusion-based fingerprinting approaches were used due to the sample complexity and matrix suppression effects.

M3 - Chapter

VL - 678

SP - 229

EP - 246

BT - Methods in molecular biology (Clifton, N.J.)|Methods Mol. Biol.

PB - Springer Nature

ER -

Plant metabolomics by GC-MS and differential analysis.

Abstract

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