Metabolite profiling of mycorrhizal roots of Medicago truncatula

Extensive analyses of soluble primary and secondary metabolites as well as cell wall-bound phenolics of Medicago truncatula roots by GC–MS, HPLC, and LC–MS during the symbiotic interaction with the arbuscular mycorrhizal fungus Glomus intraradices are reported. Metabolite data sets were subjected to...

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Veröffentlicht in:	Phytochemistry (Oxford) Jg. 69; H. 1; S. 112 - 146
Hauptverfasser:	Schliemann, Willibald, Ammer, Christian, Strack, Dieter
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	OXFORD Elsevier Ltd 2008 Elsevier
Schlagworte:	Agronomy. Soil science and plant productions analysis apocarotenoid Apocarotenoids Arbuscular mycorrhiza Biochemistry & Molecular Biology Biological and medical sciences Carotenoids Carotenoids - analysis Carotenoids - chemistry Cell Wall Cell Wall - chemistry Cell Wall - metabolism Cell wall-bound phenolics cell walls Chemical constitution chemistry Chromatography, High Pressure Liquid cytology Economic plant physiology Fatty acids and fatty alcohols Flavonoids Flavonoids - analysis Flavonoids - chemistry Fundamental and applied biological sciences. Psychology Gas Chromatography-Mass Spectrometry GC–MS Glomus intraradices Hierarchical cluster analysis Isoflavonoids Kinetics LC–MS Leguminosae Life Sciences & Biomedicine Linear Models Medicago truncatula Medicago truncatula - chemistry Medicago truncatula - cytology Medicago truncatula - metabolism Medicago truncatula - microbiology Medicago truncatula Barrel medic metabolism Metabolite profiling metabolome microbiology Multivariate Analysis Mycorrhizae Mycorrhizae - chemistry Mycorrhizae - cytology Mycorrhizae - metabolism mycorrhizal fungi Network analysis phenols Phenols - analysis Plant Extracts Plant Extracts - analysis Plant Extracts - chemistry Plant Extracts - metabolism Plant physiology and development Plant Sciences Primary polar metabolites Principal component analysis Rhizophagus intraradices root systems RP-HPLC-DAD Saponins Saponins - analysis Science & Technology secondary metabolites Symbiosis (nodules, symbiotic nitrogen fixation, mycorrhiza...) Tyrosol vesicular arbuscular mycorrhizae Primary polar metabolites Saponins GC–MS NM 100P Metabolite profiling Hierarchical cluster analysis LC–MS AM dai Tyrosol Fatty acids and fatty alcohols RP-HPLC-DAD Glomus intraradices Apocarotenoids M 20P Leguminosae Cell wall-bound phenolics Network analysis NM 20P Isoflavonoids Medicago truncatula Barrel medic Arbuscular mycorrhiza Principal component analysis hierarchical cluster analysis tyrosol leguminosae MASS-SPECTROMETRY primary polar metabolites YELLOW PIGMENT FUNGUS GLOMUS-INTRARADICES apocarotenoids metabolite profiling arbuscular mycorrhiza DISEASE RESISTANCE saponins METHYLERYTHRITOL PHOSPHATE-PATHWAY Medicago truncatula barrel medic FATTY-ACIDS SESQUITERPENOID CYCLOHEXENONE DERIVATIVES SECONDARY COMPOUNDS GC-MS LC-MS fatty acids and fatty alcohols CAROTENOID CLEAVAGE DIOXYGENASE cell wall-bound phenolics network analysis isoflavonoids principal component analysis Phosphates Metabolite Stimulation Activation Biosynthesis Cell wall Oleic acid Dicotyledones Angiospermae Secondary metabolism Medicago truncatula Root Interaction Fatty acids Aminoacid Mycorrhiza Phenols Spermatophyta Daidzein Vanillin Colonization
ISSN:	0031-9422, 1873-3700
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Abstract	Extensive analyses of soluble primary and secondary metabolites as well as cell wall-bound phenolics of Medicago truncatula roots by GC–MS, HPLC, and LC–MS during the symbiotic interaction with the arbuscular mycorrhizal fungus Glomus intraradices are reported. Metabolite data sets were subjected to bioinformatics approaches including HCA, PCA and network analyses. Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic ( Medicago truncatula) was carried out by GC–MS, HPLC and LC–MS. These analyses revealed a number of metabolic characteristics over 56 days of symbiotic interaction with the arbuscular mycorrhizal (AM) fungus Glomus intraradices, when compared to the controls, i.e. nonmycorrhizal roots supplied with low and high amounts of phosphate. During the most active stages of overall root mycorrhization, elevated levels of certain amino acids (Glu, Asp, Asn) were observed accompanied by increases in amounts of some fatty acids (palmitic and oleic acids), indicating a mycorrhiza-specific activation of plastidial metabolism. In addition, some accumulating fungus-specific fatty acids (palmitvaccenic and vaccenic acids) were assigned that may be used as markers of fungal root colonization. Stimulation of the biosynthesis of some constitutive isoflavonoids (daidzein, ononin and malonylononin) occurred, however, only at late stages of root mycorrhization. Increase of the levels of saponins correlated AM-independently with plant growth. Only in AM roots was the accumulation of apocarotenoids (cyclohexenone and mycorradicin derivatives) observed. The structures of the unknown cyclohexenone derivatives were identified by spectroscopic methods as glucosides of blumenol C and 13-hydroxyblumenol C and their corresponding malonyl conjugates. During mycorrhization, the levels of typical cell wall-bound phenolics (e.g. 4-hydroxybenzaldehyde, vanillin, ferulic acid) did not change; however, high amounts of cell wall-bound tyrosol were exclusively detected in AM roots. Principal component analyses of nonpolar primary and secondary metabolites clearly separated AM roots from those of the controls, which was confirmed by an hierarchical cluster analysis. Circular networks of primary nonpolar metabolites showed stronger and more frequent correlations between metabolites in the mycorrhizal roots. The same trend, but to a lesser extent, was observed in nonmycorrhizal roots supplied with high amounts of phosphate. These results indicate a tighter control of primary metabolism in AM roots compared to control plants. Network correlation analyses revealed distinct clusters of amino acids and sugars/aliphatic acids with strong metabolic correlations among one another in all plants analyzed; however, mycorrhizal symbiosis reduced the cluster separation and enlarged the sugar cluster size. The amino acid clusters represent groups of metabolites with strong correlations among one another (cliques) that are differently composed in mycorrhizal and nonmycorrhizal roots. In conclusion, the present work shows for the first time that there are clear differences in development- and symbiosis-dependent primary and secondary metabolism of M. truncatula roots.
AbstractList	Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic (Medicago truncatula) was carried out by GC-MS, HPLC and LC-MS. These analyses revealed a number of metabolic characteristics over 56 days of symbiotic interaction with the arbuscular mycorrhizal (AM) fungus Glomus intraradices, when compared to the controls, i.e. nonmycorrhizal roots supplied with low and high amounts of phosphate. During the most active stages of overall root mycorrhization, elevated levels of certain amino acids (Glu, Asp, Asn) were observed accompanied by increases in amounts of some fatty acids (palmitic and oleic acids), indicating a mycorrhiza-specific activation of plastidial metabolism. In addition, some accumulating fungus-specific fatty acids (palmitvaccenic and vaccenic acids) were assigned that may be used as markers of fungal root colonization. Stimulation of the biosynthesis of some constitutive isoflavonoids (daidzein, ononin and malonylononin) occurred, however, only at late stages of root mycorrhization. Increase of the levels of saponins correlated AM-independently with plant growth. Only in AM roots was the accumulation of apocarotenoids (cyclohexenone and mycorradicin derivatives) observed. The structures of the unknown cyclohexenone derivatives were identified by spectroscopic methods as glucosides of blumenol C and 13-hydroxyblumenol C and their corresponding malonyl conjugates. During mycorrhization, the levels of typical cell wall-bound phenolics (e.g. 4-hydroxybenzaldehyde, vanillin, ferulic acid) did not change; however, high amounts of cell wall-bound tyrosol were exclusively detected in AM roots. Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic (Medicago truncatula) was carried out by GC-MS, HPLC and LC-MS. These analyses revealed a number of metabolic characteristics over 56 days of symbiotic interaction with the arbuscular mycorrhizal (AM) fungus Glomus intraradices, when compared to the controls, i.e. nonmycorrhizal roots supplied with low and high amounts of phosphate. During the most active stages of overall root mycorrhization, elevated levels of certain amino acids (Glu, Asp, Asn) were observed accompanied by increases in amounts of some fatty acids (palmitic and oleic acids), indicating a mycorrhiza-specific activation of plastidial metabolism. In addition, some accumulating fungus-specific fatty acids (palmitvaccenic and vaccenic acids) were assigned that may be used as markers of fungal root colonization. Stimulation of the biosynthesis of some constitutive isoflavonoids (daidzein, ononin and malonylononin) occurred, however, only at late stages of root mycorrhization. Increase of the levels of saponins correlated AM-independently with plant growth. Only in AM roots was the accumulation of apocarotenoids (cyclohexenone and mycorradicin derivatives) observed. The structures of the unknown cyclohexenone derivatives were identified by spectroscopic methods as glucosides of blumenol C and 13-hydroxyblumenol C and their corresponding malonyl conjugates. During mycorrhization, the levels of typical cell wall-bound phenolics (e.g. 4-hydroxybenzaldehyde, vanillin, ferulic acid) did not change; however, high amounts of cell wall-bound tyrosol were exclusively detected in AM roots. Principal component analyses of nonpolar primary and secondary metabolites clearly separated AM roots from those of the controls, which was confirmed by an hierarchical cluster analysis. Circular networks of primary nonpolar metabolites showed stronger and more frequent correlations between metabolites in the mycorrhizal roots. The same trend, but to a lesser extent, was observed in nonmycorrhizal roots supplied with high amounts of phosphate. These results indicate a tighter control of primary metabolism in AM roots compared to control plants. Network correlation analyses revealed distinct clusters of amino acids and sugars/aliphatic acids with strong metabolic correlations among one another in all plants analyzed; however, mycorrhizal symbiosis reduced the cluster separation and enlarged the sugar cluster size. The amino acid clusters represent groups of metabolites with strong correlations among one another (cliques) that are differently composed in mycorrhizal and nonmycorrhizal roots. In conclusion, the present work shows for the first time that there are clear differences in development- and symbiosis-dependent primary and secondary metabolism of M. truncatula roots. Extensive analyses of soluble primary and secondary metabolites as well as cell wall-bound phenolics of Medicago truncatula roots by GC–MS, HPLC, and LC–MS during the symbiotic interaction with the arbuscular mycorrhizal fungus Glomus intraradices are reported. Metabolite data sets were subjected to bioinformatics approaches including HCA, PCA and network analyses. Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic ( Medicago truncatula) was carried out by GC–MS, HPLC and LC–MS. These analyses revealed a number of metabolic characteristics over 56 days of symbiotic interaction with the arbuscular mycorrhizal (AM) fungus Glomus intraradices, when compared to the controls, i.e. nonmycorrhizal roots supplied with low and high amounts of phosphate. During the most active stages of overall root mycorrhization, elevated levels of certain amino acids (Glu, Asp, Asn) were observed accompanied by increases in amounts of some fatty acids (palmitic and oleic acids), indicating a mycorrhiza-specific activation of plastidial metabolism. In addition, some accumulating fungus-specific fatty acids (palmitvaccenic and vaccenic acids) were assigned that may be used as markers of fungal root colonization. Stimulation of the biosynthesis of some constitutive isoflavonoids (daidzein, ononin and malonylononin) occurred, however, only at late stages of root mycorrhization. Increase of the levels of saponins correlated AM-independently with plant growth. Only in AM roots was the accumulation of apocarotenoids (cyclohexenone and mycorradicin derivatives) observed. The structures of the unknown cyclohexenone derivatives were identified by spectroscopic methods as glucosides of blumenol C and 13-hydroxyblumenol C and their corresponding malonyl conjugates. During mycorrhization, the levels of typical cell wall-bound phenolics (e.g. 4-hydroxybenzaldehyde, vanillin, ferulic acid) did not change; however, high amounts of cell wall-bound tyrosol were exclusively detected in AM roots. Principal component analyses of nonpolar primary and secondary metabolites clearly separated AM roots from those of the controls, which was confirmed by an hierarchical cluster analysis. Circular networks of primary nonpolar metabolites showed stronger and more frequent correlations between metabolites in the mycorrhizal roots. The same trend, but to a lesser extent, was observed in nonmycorrhizal roots supplied with high amounts of phosphate. These results indicate a tighter control of primary metabolism in AM roots compared to control plants. Network correlation analyses revealed distinct clusters of amino acids and sugars/aliphatic acids with strong metabolic correlations among one another in all plants analyzed; however, mycorrhizal symbiosis reduced the cluster separation and enlarged the sugar cluster size. The amino acid clusters represent groups of metabolites with strong correlations among one another (cliques) that are differently composed in mycorrhizal and nonmycorrhizal roots. In conclusion, the present work shows for the first time that there are clear differences in development- and symbiosis-dependent primary and secondary metabolism of M. truncatula roots. Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic (Medicago truncatula) was carried out by GC-MS, HPLC and LC-MS. These analyses revealed a number of metabolic characteristics over 56 days of symbiotic interaction with the arbuscular mycorrhizal (AM) fungus Glomus intraradices, when compared to the controls, i.e. nonmycorrhizal roots supplied with low and high amounts of phosphate. During the most active stages of overall root mycorrhization, elevated levels of certain amino acids (Glu, Asp, Asn) were observed accompanied by increases in amounts of some fatty acids (palmitic and oleic acids), indicating a mycorrhiza-specific activation of plastidial metabolism. In addition some accumulating fungus-specific fatty acids (palmitvaccenic and vaccenic acids) were assigned that may be used as markers of fungal root colonization. Stimulation of the biosynthesis of some constitutive isoflavonoids (daidzein, ononin and malonylononin) occurred, however, only at late stages of root mycorrhization. Increase of the levels of saponins correlated AM-independently with plant growth. Only in AM roots was the accumulation of apocarotenoids (cyclohexenone and mycorradicin derivatives) observed. The structures of the unknown cyclohexenone derivatives were identified by spectroscopic methods as glucosides of blumenol C and 13-hydroxyblumenol C and their corresponding malonyl conjugates. During mycorrhization, the levels of typical cell wall-bound phenolics (e.g. 4-hydroxybenzaldehyde, vanillin, ferulic acid) did not change; however, high amounts of cell wall-bound tyrosol were exclusively detected in AM roots. Principal component analyses of nonpolar primary and secondary metabolites clearly separated AM roots from those of the controls, which was confirmed by an hierarchical cluster analysis. Circular networks of primary nonpolar metabolites showed stronger and more frequent correlations between metabolites in the mycorrhizal roots. The same trend, but to a lesser extent, was observed in nonmycorrhizal roots supplied with high amounts of phosphate. These results indicate a tighter control of primary metabolism in AM roots compared to control plants. Network correlation analyses revealed distinct clusters of amino acids and sugars/aliphatic acids with strong metabolic correlations among one another in all plants analyzed; however, mycorrhizal symbiosis reduced the cluster separation and enlarged the sugar cluster size. The amino acid clusters represent groups of metabolites with strong correlations among one another (cliques) that are differently composed in mycorrhizal and nonmycorrhizal roots. In conclusion, the present work shows for the first time that there are clear differences in development- and symbiosis-dependent primary and secondary metabolism of M. truncatula roots. (C) 2007 Elsevier Ltd. All rights reserved. Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic (Medicago truncatula) was carried out by GC-MS, HPLC and LC-MS. These analyses revealed a number of metabolic characteristics over 56 days of symbiotic interaction with the arbuscular mycorrhizal (AM) fungus Glomus intraradices, when compared to the controls, i.e. nonmycorrhizal roots supplied with low and high amounts of phosphate. During the most active stages of overall root mycorrhization, elevated levels of certain amino acids (Glu, Asp, Asn) were observed accompanied by increases in amounts of some fatty acids (palmitic and oleic acids), indicating a mycorrhiza-specific activation of plastidial metabolism. In addition, some accumulating fungus-specific fatty acids (palmitvaccenic and vaccenic acids) were assigned that may be used as markers of fungal root colonization. Stimulation of the biosynthesis of some constitutive isoflavonoids (daidzein, ononin and malonylononin) occurred, however, only at late stages of root mycorrhization. Increase of the levels of saponins correlated AM-independently with plant growth. Only in AM roots was the accumulation of apocarotenoids (cyclohexenone and mycorradicin derivatives) observed. The structures of the unknown cyclohexenone derivatives were identified by spectroscopic methods as glucosides of blumenol C and 13-hydroxyblumenol C and their corresponding malonyl conjugates. During mycorrhization, the levels of typical cell wall-bound phenolics (e.g. 4-hydroxybenzaldehyde, vanillin, ferulic acid) did not change; however, high amounts of cell wall-bound tyrosol were exclusively detected in AM roots. Principal component analyses of nonpolar primary and secondary metabolites clearly separated AM roots from those of the controls, which was confirmed by an hierarchical cluster analysis. Circular networks of primary nonpolar metabolites showed stronger and more frequent correlations between metabolites in the mycorrhizal roots. The same trend, but to a lesser extent, was observed in nonmycorrhizal roots supplied with high amounts of phosphate. These results indicate a tighter control of primary metabolism in AM roots compared to control plants. Network correlation analyses revealed distinct clusters of amino acids and sugars/aliphatic acids with strong metabolic correlations among one another in all plants analyzed; however, mycorrhizal symbiosis reduced the cluster separation and enlarged the sugar cluster size. The amino acid clusters represent groups of metabolites with strong correlations among one another (cliques) that are differently composed in mycorrhizal and nonmycorrhizal roots. In conclusion, the present work shows for the first time that there are clear differences in development- and symbiosis-dependent primary and secondary metabolism of M. truncatula roots.Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic (Medicago truncatula) was carried out by GC-MS, HPLC and LC-MS. These analyses revealed a number of metabolic characteristics over 56 days of symbiotic interaction with the arbuscular mycorrhizal (AM) fungus Glomus intraradices, when compared to the controls, i.e. nonmycorrhizal roots supplied with low and high amounts of phosphate. During the most active stages of overall root mycorrhization, elevated levels of certain amino acids (Glu, Asp, Asn) were observed accompanied by increases in amounts of some fatty acids (palmitic and oleic acids), indicating a mycorrhiza-specific activation of plastidial metabolism. In addition, some accumulating fungus-specific fatty acids (palmitvaccenic and vaccenic acids) were assigned that may be used as markers of fungal root colonization. Stimulation of the biosynthesis of some constitutive isoflavonoids (daidzein, ononin and malonylononin) occurred, however, only at late stages of root mycorrhization. Increase of the levels of saponins correlated AM-independently with plant growth. Only in AM roots was the accumulation of apocarotenoids (cyclohexenone and mycorradicin derivatives) observed. The structures of the unknown cyclohexenone derivatives were identified by spectroscopic methods as glucosides of blumenol C and 13-hydroxyblumenol C and their corresponding malonyl conjugates. During mycorrhization, the levels of typical cell wall-bound phenolics (e.g. 4-hydroxybenzaldehyde, vanillin, ferulic acid) did not change; however, high amounts of cell wall-bound tyrosol were exclusively detected in AM roots. Principal component analyses of nonpolar primary and secondary metabolites clearly separated AM roots from those of the controls, which was confirmed by an hierarchical cluster analysis. Circular networks of primary nonpolar metabolites showed stronger and more frequent correlations between metabolites in the mycorrhizal roots. The same trend, but to a lesser extent, was observed in nonmycorrhizal roots supplied with high amounts of phosphate. These results indicate a tighter control of primary metabolism in AM roots compared to control plants. Network correlation analyses revealed distinct clusters of amino acids and sugars/aliphatic acids with strong metabolic correlations among one another in all plants analyzed; however, mycorrhizal symbiosis reduced the cluster separation and enlarged the sugar cluster size. The amino acid clusters represent groups of metabolites with strong correlations among one another (cliques) that are differently composed in mycorrhizal and nonmycorrhizal roots. In conclusion, the present work shows for the first time that there are clear differences in development- and symbiosis-dependent primary and secondary metabolism of M. truncatula roots.
Author	Ammer, Christian Schliemann, Willibald Strack, Dieter
Author_xml	– sequence: 1 givenname: Willibald surname: Schliemann fullname: Schliemann, Willibald email: willibald.schliemann@ipb-halle.de – sequence: 2 givenname: Christian surname: Ammer fullname: Ammer, Christian – sequence: 3 givenname: Dieter surname: Strack fullname: Strack, Dieter
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Keywords	Primary polar metabolites Saponins GC–MS NM 100P Metabolite profiling Hierarchical cluster analysis LC–MS AM dai Tyrosol Fatty acids and fatty alcohols RP-HPLC-DAD Glomus intraradices Apocarotenoids M 20P Leguminosae Cell wall-bound phenolics Network analysis NM 20P Isoflavonoids Medicago truncatula Barrel medic Arbuscular mycorrhiza Principal component analysis hierarchical cluster analysis tyrosol leguminosae MASS-SPECTROMETRY primary polar metabolites YELLOW PIGMENT FUNGUS GLOMUS-INTRARADICES apocarotenoids metabolite profiling arbuscular mycorrhiza DISEASE RESISTANCE saponins METHYLERYTHRITOL PHOSPHATE-PATHWAY Medicago truncatula barrel medic FATTY-ACIDS SESQUITERPENOID CYCLOHEXENONE DERIVATIVES SECONDARY COMPOUNDS GC-MS LC-MS fatty acids and fatty alcohols CAROTENOID CLEAVAGE DIOXYGENASE cell wall-bound phenolics network analysis isoflavonoids principal component analysis Phosphates Metabolite Stimulation Activation Biosynthesis Cell wall Oleic acid Dicotyledones Angiospermae Secondary metabolism Medicago truncatula Root Interaction Fatty acids Aminoacid Mycorrhiza Phenols Spermatophyta Daidzein Vanillin Colonization
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Snippet	Extensive analyses of soluble primary and secondary metabolites as well as cell wall-bound phenolics of Medicago truncatula roots by GC–MS, HPLC, and LC–MS... Metabolite profiling of soluble primary and secondary metabolites, as well as cell wall-bound phenolic compounds from roots of barrel medic (Medicago...
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SubjectTerms	Agronomy. Soil science and plant productions analysis apocarotenoid Apocarotenoids Arbuscular mycorrhiza Biochemistry & Molecular Biology Biological and medical sciences Carotenoids Carotenoids - analysis Carotenoids - chemistry Cell Wall Cell Wall - chemistry Cell Wall - metabolism Cell wall-bound phenolics cell walls Chemical constitution chemistry Chromatography, High Pressure Liquid cytology Economic plant physiology Fatty acids and fatty alcohols Flavonoids Flavonoids - analysis Flavonoids - chemistry Fundamental and applied biological sciences. Psychology Gas Chromatography-Mass Spectrometry GC–MS Glomus intraradices Hierarchical cluster analysis Isoflavonoids Kinetics LC–MS Leguminosae Life Sciences & Biomedicine Linear Models Medicago truncatula Medicago truncatula - chemistry Medicago truncatula - cytology Medicago truncatula - metabolism Medicago truncatula - microbiology Medicago truncatula Barrel medic metabolism Metabolite profiling metabolome microbiology Multivariate Analysis Mycorrhizae Mycorrhizae - chemistry Mycorrhizae - cytology Mycorrhizae - metabolism mycorrhizal fungi Network analysis phenols Phenols - analysis Plant Extracts Plant Extracts - analysis Plant Extracts - chemistry Plant Extracts - metabolism Plant physiology and development Plant Sciences Primary polar metabolites Principal component analysis Rhizophagus intraradices root systems RP-HPLC-DAD Saponins Saponins - analysis Science & Technology secondary metabolites Symbiosis (nodules, symbiotic nitrogen fixation, mycorrhiza...) Tyrosol vesicular arbuscular mycorrhizae
Title	Metabolite profiling of mycorrhizal roots of Medicago truncatula
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