Gamma-aminobutyric acid (GABA) alleviates salt damage in tomato by modulating Na + uptake, the GAD gene, amino acid synthesis and reactive oxygen species metabolism

Salt stress is a serious abiotic stress that caused crop growth inhibition and yield decline. Previous studies have reported on the the synthesis of gamma-aminobutyric acid (GABA) and its relationship with plant resistance under various abiotic stress. However, the relationship between exogenous GAB...

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Published in:BMC plant biology 2020-10, Vol.20 (1), p.465-465, Article 465
Main Authors: Wu, Xiaolei, Jia, Qiuying, Ji, Shengxin, Gong, Binbin, Li, Jingrui, Lü, Guiyun, Gao, Hongbo
Format: Article
Language:English
Subjects:
Abiotic stress
Accumulation
Active oxygen
Amino acid accumulation
Amino acid synthesis
Amino acids
Antioxidants
Antioxidants (Nutrients)
Chemical synthesis
China
Chlorophyll
Crop growth
Crop yield
Crops
Damage
Enzymes
Flowers & plants
GABA
Gamma-aminobutyric acid
gamma-Aminobutyric Acid - metabolism
Gene expression
Genes
Genetic research
Glutamate
Glutamate decarboxylase
Ion flux
Ions - metabolism
Leaves
Lycopersicon esculentum - genetics
Lycopersicon esculentum - metabolism
Malondialdehyde
Metabolism
Na+ flux and transportation
NaCl stress
Oxygen
Physiological aspects
Physiology
Plant growth
Plant Leaves - metabolism
Plant Proteins - genetics
Plant Proteins - metabolism
Plant resistance
Plant Roots - metabolism
Proline
Reactive oxygen species
Reactive Oxygen Species - metabolism
Roots
Salinity tolerance
Salt
Salt Tolerance - genetics
Salt Tolerance - physiology
Salts
Seedlings
Seedlings - metabolism
SlGAD transcriptional expression
Sodium chloride
Solanum lycopersicum
Stress
Stress, Physiological - genetics
Stress, Physiological - physiology
Tomato
Tomatoes
Transcription
Transcription (Genetics)
Transportation
γ-Aminobutyric acid
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Summary:Salt stress is a serious abiotic stress that caused crop growth inhibition and yield decline. Previous studies have reported on the the synthesis of gamma-aminobutyric acid (GABA) and its relationship with plant resistance under various abiotic stress. However, the relationship between exogenous GABA alleviating plant salt stress damage and ion flux, amino acid synthesis, and key enzyme expression remains largely unclear. We investigated plant growth, Na transportation and accumulation, reactive oxygen species (ROS) metabolism and evaluated the effect of GABA on amino acids, especially SlGADs gene expression and the endogenous GABA content of tomato (Solanum lycopersicum L.) seedlings treated with or without 5 mmol·L GABA under 175 mmol·L NaCl stress. Exogenous application of GABA significantly reduced the salt damage index and increased plant height, chlorophyll content and the dry and fresh weights of tomato plants exposed to NaCl stress. GABA significantly reduced Na accumulation in leaves and roots by preventing Na influx in roots and transportation to leaves. The transcriptional expression of SlGAD1-3 genes were induced by NaCl stress especially with GABA application. Among them, SlGAD1 expression was the most sensitive and contributed the most to the increase in glutamate decarboxylase (GAD) activity induced by NaCl and GABA application; Exogenous GABA increased GAD activity and amino acid contents in tomato leaves compared with the levels under NaCl stress alone, especially the levels of endogenous GABA, proline, glutamate and eight other amino acids. These results indicated that SlGADs transcriptional expression played an important role in tomato plant resistance to NaCl stress with GABA application by enhancing GAD activity and amino acid contents. GABA significantly alleviated the active oxygen-related injury of leaves under NaCl stress by increasing the activities of antioxidant enzymes and decreasing the contents of active oxygen species and malondialdehyde. Exogenous GABA had a positive effect on the resistance of tomato seedlings to salt stress, which was closely associated with reducing Na flux from root to leaves, increasing amino acid content and strengthening antioxidant metabolism. Endogenous GABA content was induced by salt and exogenous GABA at both the transcriptional and metabolic levels.
ISSN:1471-2229
1471-2229
DOI:10.1186/s12870-020-02669-w