Amino acid homeostasis modulates salicylic acid-associated redox status and defense responses in Arabidopsis

Guosheng Liu; Yuanyuan Ji; Nazmul H. Bhuiyan; Guillaume Pilot; Gopalan Selvaraj; Jitao Zou; Yangdou Wei

doi:10.1105/tpc.110.079392

Amino acid homeostasis modulates salicylic acid-associated redox status and defense responses in Arabidopsis

Guosheng Liu, Yuanyuan Ji, Nazmul H. Bhuiyan, Guillaume Pilot, Gopalan Selvaraj, Jitao Zou, Yangdou Wei

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205 Scopus citations

Abstract

The tight association between nitrogen status and pathogenesis has been broadly documented in plant-pathogen interactions. However, the interface between primary metabolism and disease responses remains largely unclear. Here, we show that knockout of a single amino acid transporter, LYSINE HISTIDINE TRANSPORTER1 (LHT1), is sufficient for Arabidopsis thaliana plants to confer a broad spectrum of disease resistance in a salicylic acid-dependent manner. We found that redox fine-tuning in photosynthetic cells was causally linked to the lht1 mutant-associated phenotypes. Furthermore, the enhanced resistance in lht1 could be attributed to a specific deficiency of its main physiological substrate, Gln, and not to a general nitrogen deficiency. Thus, by enabling nitrogen metabolism to moderate the cellular redox status, a plant primary metabolite, Gln, plays a crucial role in plant disease resistance.

Original language	English (US)
Pages (from-to)	3845-3863
Number of pages	19
Journal	Plant Cell
Volume	22
Issue number	11
DOIs	https://doi.org/10.1105/tpc.110.079392
State	Published - Nov 2010

All Science Journal Classification (ASJC) codes

Plant Science

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10.1105/tpc.110.079392

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title = "Amino acid homeostasis modulates salicylic acid-associated redox status and defense responses in Arabidopsis",

abstract = "The tight association between nitrogen status and pathogenesis has been broadly documented in plant-pathogen interactions. However, the interface between primary metabolism and disease responses remains largely unclear. Here, we show that knockout of a single amino acid transporter, LYSINE HISTIDINE TRANSPORTER1 (LHT1), is sufficient for Arabidopsis thaliana plants to confer a broad spectrum of disease resistance in a salicylic acid-dependent manner. We found that redox fine-tuning in photosynthetic cells was causally linked to the lht1 mutant-associated phenotypes. Furthermore, the enhanced resistance in lht1 could be attributed to a specific deficiency of its main physiological substrate, Gln, and not to a general nitrogen deficiency. Thus, by enabling nitrogen metabolism to moderate the cellular redox status, a plant primary metabolite, Gln, plays a crucial role in plant disease resistance.",

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T1 - Amino acid homeostasis modulates salicylic acid-associated redox status and defense responses in Arabidopsis

AU - Liu, Guosheng

AU - Ji, Yuanyuan

AU - Bhuiyan, Nazmul H.

AU - Pilot, Guillaume

AU - Selvaraj, Gopalan

AU - Zou, Jitao

AU - Wei, Yangdou

PY - 2010/11

Y1 - 2010/11

N2 - The tight association between nitrogen status and pathogenesis has been broadly documented in plant-pathogen interactions. However, the interface between primary metabolism and disease responses remains largely unclear. Here, we show that knockout of a single amino acid transporter, LYSINE HISTIDINE TRANSPORTER1 (LHT1), is sufficient for Arabidopsis thaliana plants to confer a broad spectrum of disease resistance in a salicylic acid-dependent manner. We found that redox fine-tuning in photosynthetic cells was causally linked to the lht1 mutant-associated phenotypes. Furthermore, the enhanced resistance in lht1 could be attributed to a specific deficiency of its main physiological substrate, Gln, and not to a general nitrogen deficiency. Thus, by enabling nitrogen metabolism to moderate the cellular redox status, a plant primary metabolite, Gln, plays a crucial role in plant disease resistance.

AB - The tight association between nitrogen status and pathogenesis has been broadly documented in plant-pathogen interactions. However, the interface between primary metabolism and disease responses remains largely unclear. Here, we show that knockout of a single amino acid transporter, LYSINE HISTIDINE TRANSPORTER1 (LHT1), is sufficient for Arabidopsis thaliana plants to confer a broad spectrum of disease resistance in a salicylic acid-dependent manner. We found that redox fine-tuning in photosynthetic cells was causally linked to the lht1 mutant-associated phenotypes. Furthermore, the enhanced resistance in lht1 could be attributed to a specific deficiency of its main physiological substrate, Gln, and not to a general nitrogen deficiency. Thus, by enabling nitrogen metabolism to moderate the cellular redox status, a plant primary metabolite, Gln, plays a crucial role in plant disease resistance.

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Amino acid homeostasis modulates salicylic acid-associated redox status and defense responses in Arabidopsis

Abstract

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