期刊
PLANT CELL AND ENVIRONMENT
卷 41, 期 4, 页码 721-736出版社
WILEY
DOI: 10.1111/pce.13094
关键词
abiotic stress; energy sensing; ethylene-responsive transcription factor; hypoxia; metabolism; SUBMERGENCE1A; trehalose-6-phosphate
资金
- U.S Department of Agriculture [2011-04015]
- U.S. National Science Foundation [DGE-0504249, IOS-1121626]
- National Science Foundation Integrative Graduate Education Research and Training Program fellowship [DGE-0504249]
- U.S. Department of Agriculture, National Institute of Food and Agriculture-Agriculture and Food Research Initiative [2011-04015]
The rice (Oryza sativa L.) ethylene-responsive transcription factor gene SUB1A-1 confers tolerance to prolonged, complete submergence by limiting underwater elongation growth. Upon desubmergence, SUB1A-1 genotypes rapidly recover photosynthetic function and recommence development towards flowering. The underpinnings of the transition from stress amelioration to the return to homeostasis are not well known. Here, transcriptomic and metabolomic analyses were conducted to identify mechanisms by which SUB1A improves physiological function over the 24 hr following a sublethal submergence event. Evaluation of near-isogenic genotypes after submergence and over a day of reaeration demonstrated that SUB1A transiently constrains the remodelling of cellular activities associated with growth. SUB1A influenced the abundance of ca. 1,400 transcripts and had a continued impact on metabolite content, particularly free amino acids, glucose, and sucrose, throughout the recovery period. SUB1A promoted recovery of metabolic homeostasis but had limited influence on mRNAs associated with growth processes and photosynthesis. The involvement of low energy sensing during submergence and recovery was supported by dynamics in trehalose-6-phosphate and mRNAs encoding key enzymes and signalling proteins, which were modulated by SUB1A. This study provides new evidence of convergent signalling pathways critical to the rapidly reversible management of carbon and nitrogen metabolism in submergence resilient rice.
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