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The role of γ-aminobutyric acid in aluminum stress tolerance in a woody plant, Liriodendron chinense × tulipifera
Horticulture Research ( IF 8.7 ) Pub Date : 2021-04-01 , DOI: 10.1038/s41438-021-00517-y Pengkai Wang , Yini Dong , Liming Zhu , Zhaodong Hao , LingFeng Hu , Xiangyang Hu , Guibin Wang , Tielong Cheng , Jisen Shi , Jinhui Chen
Horticulture Research ( IF 8.7 ) Pub Date : 2021-04-01 , DOI: 10.1038/s41438-021-00517-y Pengkai Wang , Yini Dong , Liming Zhu , Zhaodong Hao , LingFeng Hu , Xiangyang Hu , Guibin Wang , Tielong Cheng , Jisen Shi , Jinhui Chen
The aluminum (Al) cation Al3+ in acidic soil shows severe rhizotoxicity that inhibits plant growth and development. Most woody plants adapted to acidic soils have evolved specific strategies against Al3+ toxicity, but the underlying mechanism remains elusive. The four-carbon amino acid gamma-aminobutyric acid (GABA) has been well studied in mammals as an inhibitory neurotransmitter; GABA also controls many physiological responses during environmental or biotic stress. The woody plant hybrid Liriodendron (L. chinense × tulipifera ) is widely cultivated in China as a horticultural tree and provides high-quality timber; studying its adaptation to high Al stress is important for harnessing its ecological and economic potential. Here, we performed quantitative iTRAQ (isobaric tags for relative and absolute quantification) to study how protein expression is altered in hybrid Liriodendron leaves subjected to Al stress. Hybrid Liriodendron shows differential accumulation of several proteins related to cell wall biosynthesis, sugar and proline metabolism, antioxidant activity, cell autophagy, protein ubiquitination degradation, and anion transport in response to Al damage. We observed that Al stress upregulated glutamate decarboxylase (GAD) and its activity, leading to increased GABA biosynthesis. Additional GABA synergistically increased Al-induced antioxidant enzyme activity to efficiently scavenge ROS, enhanced proline biosynthesis, and upregulated the expression of MATE1/2 , which subsequently promoted the efflux of citrate for chelation of Al3+ . We also showed similar effects of GABA on enhanced Al3+ tolerance in Arabidopsis . Thus, our findings suggest a function of GABA signaling in enhancing hybrid Liriodendron tolerance to Al stress through promoting organic acid transport and sustaining the cellular redox and osmotic balance.
更新日期:2021-04-01
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