Characterization of distinct root and shoot responses to low‐oxygen stress in Arabidopsis with a focus on primary C‐ and N‐metabolism

Oxygen deficiency, caused by flooding of all or a portion of a plant, leads to significant gene regulatory and metabolic responses associated with survival. When oxygen‐deprived in light, aerial organs and root systems respond in distinct manners because of their respective autotrophy and heterotrop...

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Published inPlant, cell and environment Vol. 37; no. 10; pp. 2366 - 2380
Main Authors MUSTROPH, ANGELIKA, BARDING JR, GREGORY A, KAISER, KAYLA A, LARIVE, CYNTHIA K, BAILEY‐SERRES, JULIA
Format Journal Article
LanguageEnglish
Published United States Blackwell Scientific Publications 01.10.2014
Wiley Subscription Services, Inc
Subjects
acclimation
Adaptation, Physiological
alanine
Arabidopsis - genetics
Arabidopsis - physiology
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
Arabidopsis thaliana
autotrophs
biosynthesis
Carbon - metabolism
cell biology
enzymes
flooding
gamma-aminobutyric acid
gamma-Aminobutyric Acid - metabolism
GC‐MS
Gene Expression Regulation, Plant
hypoxia
messenger RNA
Metabolic Networks and Pathways
metabolite profiling
Metabolome
Nitrogen - metabolism
NMR
Organ Specificity
oxygen
Oxygen - metabolism
Plant Roots - genetics
Plant Roots - physiology
Plant Shoots - genetics
Plant Shoots - physiology
Proteome
regulator genes
root systems
roots
seedlings
shoots
spectroscopy
Stress, Physiological
submergence
surveys
Transcriptome
translatome
Water - physiology
Arabidopsis thaliana
GC-MS
submergence
hypoxia
NMR
transcriptome
flooding
translatome
metabolite profiling
metabolome
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Abstract Oxygen deficiency, caused by flooding of all or a portion of a plant, leads to significant gene regulatory and metabolic responses associated with survival. When oxygen‐deprived in light, aerial organs and root systems respond in distinct manners because of their respective autotrophy and heterotrophy, as well as intrinsic differences in cell biology and organ function. To better understand organ‐specific responses to oxygen deficiency, we monitored changes in the metabolome of roots and shoots of Arabidopsis thaliana seedlings using gas chromatography–mass spectrometry and ¹H‐nuclear magnetic resonance spectroscopy. Only roots accumulated high amounts of γ‐aminobutyrate (GABA) and lactate, whereas both organs accumulated alanine (Ala) upon hypoxia. Meta‐analysis of gene regulation data revealed higher induction of mRNAs coding for fermentative enzymes in roots as compared with shoots. However, the elevation in GABA level was not correlated with changes in transcript abundance, supporting the proposal that post‐translational mechanisms are important in metabolic acclimation to hypoxia. The biosynthesis, degradation and function of GABA and Ala during oxygen deprivation and re‐aeration is discussed. Finally, a systematic survey of low‐oxygen mediated regulation of genes associated with primary metabolism across organs and cell types reveals exciting new avenues for future studies.
AbstractList Oxygen deficiency, caused by flooding of all or a portion of a plant, leads to significant gene regulatory and metabolic responses associated with survival. When oxygen-deprived in light, aerial organs and root systems respond in distinct manners because of their respective autotrophy and heterotrophy, as well as intrinsic differences in cell biology and organ function. To better understand organ-specific responses to oxygen deficiency, we monitored changes in the metabolome of roots and shoots of Arabidopsis thaliana seedlings using gas chromatography-mass spectrometry and (1) H-nuclear magnetic resonance spectroscopy. Only roots accumulated high amounts of γ-aminobutyrate (GABA) and lactate, whereas both organs accumulated alanine (Ala) upon hypoxia. Meta-analysis of gene regulation data revealed higher induction of mRNAs coding for fermentative enzymes in roots as compared with shoots. However, the elevation in GABA level was not correlated with changes in transcript abundance, supporting the proposal that post-translational mechanisms are important in metabolic acclimation to hypoxia. The biosynthesis, degradation and function of GABA and Ala during oxygen deprivation and re-aeration is discussed. Finally, a systematic survey of low-oxygen mediated regulation of genes associated with primary metabolism across organs and cell types reveals exciting new avenues for future studies.
Oxygen deficiency, caused by flooding of all or a portion of a plant, leads to significant gene regulatory and metabolic responses associated with survival. When oxygen‐deprived in light, aerial organs and root systems respond in distinct manners because of their respective autotrophy and heterotrophy, as well as intrinsic differences in cell biology and organ function. To better understand organ‐specific responses to oxygen deficiency, we monitored changes in the metabolome of roots and shoots of Arabidopsis thaliana seedlings using gas chromatography–mass spectrometry and ¹H‐nuclear magnetic resonance spectroscopy. Only roots accumulated high amounts of γ‐aminobutyrate (GABA) and lactate, whereas both organs accumulated alanine (Ala) upon hypoxia. Meta‐analysis of gene regulation data revealed higher induction of mRNAs coding for fermentative enzymes in roots as compared with shoots. However, the elevation in GABA level was not correlated with changes in transcript abundance, supporting the proposal that post‐translational mechanisms are important in metabolic acclimation to hypoxia. The biosynthesis, degradation and function of GABA and Ala during oxygen deprivation and re‐aeration is discussed. Finally, a systematic survey of low‐oxygen mediated regulation of genes associated with primary metabolism across organs and cell types reveals exciting new avenues for future studies.
Oxygen deficiency, caused by flooding of all or a portion of a plant, leads to significant gene regulatory and metabolic responses associated with survival. When oxygen‐deprived in light, aerial organs and root systems respond in distinct manners because of their respective autotrophy and heterotrophy, as well as intrinsic differences in cell biology and organ function. To better understand organ‐specific responses to oxygen deficiency, we monitored changes in the metabolome of roots and shoots of Arabidopsis thaliana seedlings using gas chromatography–mass spectrometry and 1H‐nuclear magnetic resonance spectroscopy. Only roots accumulated high amounts of γ‐aminobutyrate (GABA) and lactate, whereas both organs accumulated alanine (Ala) upon hypoxia. Meta‐analysis of gene regulation data revealed higher induction of mRNAs coding for fermentative enzymes in roots as compared with shoots. However, the elevation in GABA level was not correlated with changes in transcript abundance, supporting the proposal that post‐translational mechanisms are important in metabolic acclimation to hypoxia. The biosynthesis, degradation and function of GABA and Ala during oxygen deprivation and re‐aeration is discussed. Finally, a systematic survey of low‐oxygen mediated regulation of genes associated with primary metabolism across organs and cell types reveals exciting new avenues for future studies. Oxygen deficiency stress leads to significant changes in plant metabolism. Here, root and shoot responses to oxygen deficiency stress were compared at the level of the transcriptome and metabolome using the model plant Arabidopsis thaliana. Differences in fermentation metabolism were discerned between the two organs, specifically root‐specific GABA and lactate formation, which could be only partially explained by transcriptome data. The study identified several exciting avenues for future studies, such as details of the mechanism of GABA and Ala accumulation and the roles of metabolite and ion transporters.
Oxygen deficiency, caused by flooding of all or a portion of a plant, leads to significant gene regulatory and metabolic responses associated with survival. When oxygen-deprived in light, aerial organs and root systems respond in distinct manners because of their respective autotrophy and heterotrophy, as well as intrinsic differences in cell biology and organ function. To better understand organ-specific responses to oxygen deficiency, we monitored changes in the metabolome of roots and shoots of Arabidopsis thaliana seedlings using gas chromatography-mass spectrometry and 1H-nuclear magnetic resonance spectroscopy. Only roots accumulated high amounts of [gamma]-aminobutyrate (GABA) and lactate, whereas both organs accumulated alanine (Ala) upon hypoxia. Meta-analysis of gene regulation data revealed higher induction of mRNAs coding for fermentative enzymes in roots as compared with shoots. However, the elevation in GABA level was not correlated with changes in transcript abundance, supporting the proposal that post-translational mechanisms are important in metabolic acclimation to hypoxia. The biosynthesis, degradation and function of GABA and Ala during oxygen deprivation and re-aeration is discussed. Finally, a systematic survey of low-oxygen mediated regulation of genes associated with primary metabolism across organs and cell types reveals exciting new avenues for future studies. Oxygen deficiency stress leads to significant changes in plant metabolism. Here, root and shoot responses to oxygen deficiency stress were compared at the level of the transcriptome and metabolome using the model plant Arabidopsis thaliana. Differences in fermentation metabolism were discerned between the two organs, specifically root-specific GABA and lactate formation, which could be only partially explained by transcriptome data. The study identified several exciting avenues for future studies, such as details of the mechanism of GABA and Ala accumulation and the roles of metabolite and ion transporters. [PUBLICATION ABSTRACT]
Author KAISER, KAYLA A
MUSTROPH, ANGELIKA
BARDING JR, GREGORY A
LARIVE, CYNTHIA K
BAILEY‐SERRES, JULIA
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Issue 10
Keywords Arabidopsis thaliana
GC-MS
submergence
hypoxia
NMR
transcriptome
flooding
translatome
metabolite profiling
metabolome
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Snippet Oxygen deficiency, caused by flooding of all or a portion of a plant, leads to significant gene regulatory and metabolic responses associated with survival....
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SubjectTerms acclimation
Adaptation, Physiological
alanine
Arabidopsis - genetics
Arabidopsis - physiology
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
Arabidopsis thaliana
autotrophs
biosynthesis
Carbon - metabolism
cell biology
enzymes
flooding
gamma-aminobutyric acid
gamma-Aminobutyric Acid - metabolism
GC‐MS
Gene Expression Regulation, Plant
hypoxia
messenger RNA
Metabolic Networks and Pathways
metabolite profiling
Metabolome
Nitrogen - metabolism
NMR
Organ Specificity
oxygen
Oxygen - metabolism
Plant Roots - genetics
Plant Roots - physiology
Plant Shoots - genetics
Plant Shoots - physiology
Proteome
regulator genes
root systems
roots
seedlings
shoots
spectroscopy
Stress, Physiological
submergence
surveys
Transcriptome
translatome
Water - physiology
Title Characterization of distinct root and shoot responses to low‐oxygen stress in Arabidopsis with a focus on primary C‐ and N‐metabolism
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fpce.12282
https://www.ncbi.nlm.nih.gov/pubmed/24450922
https://www.proquest.com/docview/1562618345
https://search.proquest.com/docview/1563989560
Volume 37
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