The Arabidopsis pop2-1mutant reveals the involvement of GABA transaminase in salt stress tolerance

GABA转氨酶 生物 代谢物 拟南芥 分解代谢 突变体 转氨酶 生物化学 新陈代谢 拟南芥 氨基酸 化学 基因 谷氨酸脱羧酶
作者
H Renault,Valérie Roussel,Abdelhak El Amrani,Matthieu Arzel,David Renault,Alain Bouchereau,Carole Deleu
出处
期刊:BMC Plant Biology [BioMed Central]
卷期号:10 (1) 被引量:288
标识
DOI:10.1186/1471-2229-10-20
摘要

Abstract Background GABA (γ-aminobutyric acid) is a non protein amino acid that has been reported to accumulate in a number of plant species when subjected to high salinity and many other environmental constraints. However, no experimental data are to date available on the molecular function of GABA and the involvement of its metabolism in salt stress tolerance in higher plants. Here, we investigated the regulation of GABA metabolism in Arabidopsis thaliana at the metabolite, enzymatic activity and gene transcription levels upon NaCl stress. Results We identified the GABA transaminase (GABA-T), the first step of GABA catabolism, as the most responsive to NaCl. We further performed a functional analysis of the corresponding gene POP2 and demonstrated that the previously isolated loss-of-function pop2-1 mutant was oversensitive to ionic stress but not to osmotic stress suggesting a specific role in salt tolerance. NaCl oversensitivity was not associated with overaccumulation of Na + and Cl - but mutant showed a slight decrease in K + . To bring insights into POP2 function, a promoter-reporter gene strategy was used and showed that POP2 was mainly expressed in roots under control conditions and was induced in primary root apex and aerial parts of plants in response to NaCl. Additionally, GC-MS- and UPLC-based metabolite profiling revealed major changes in roots of pop2-1 mutant upon NaCl stress including accumulation of amino acids and decrease in carbohydrates content. Conclusions GABA metabolism was overall up-regulated in response to NaCl in Arabidopsis . Particularly, GABA-T was found to play a pivotal function and impairment of this step was responsible for a decrease in salt tolerance indicating that GABA catabolism was a determinant of Arabidopsis salt tolerance. GABA-T would act in salt responses in linking N and C metabolisms in roots.

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