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- Title
The AtMINPP Gene, Encoding a Multiple Inositol Polyphosphate Phosphatase, Coordinates a Novel Crosstalk between Phytic Acid Metabolism and Ethylene Signal Transduction in Leaf Senescence.
- Authors
Peng, Xiaoyun; Li, Haiou; Xu, Wenzhong; Yang, Qian; Li, Dongming; Fan, Tingting; Li, Bin; Ding, Junhui; Ku, Wenzhen; Deng, Danyi; Zhu, Feiying; Xiao, Langtao; Wang, Ruozhong
- Abstract
Plant senescence is a highly coordinated process that is intricately regulated by numerous endogenous and environmental signals. The involvement of phytic acid in various cell signaling and plant processes has been recognized, but the specific roles of phytic acid metabolism in Arabidopsis leaf senescence remain unclear. Here, we demonstrate that in Arabidopsis thaliana the multiple inositol phosphate phosphatase (AtMINPP) gene, encoding an enzyme with phytase activity, plays a crucial role in regulating leaf senescence by coordinating the ethylene signal transduction pathway. Through overexpressing AtMINPP (AtMINPP–OE), we observed early leaf senescence and reduced chlorophyll contents. Conversely, a loss-of-function heterozygous mutant (atminpp/+) exhibited the opposite phenotype. Correspondingly, the expression of senescence-associated genes (SAGs) was significantly upregulated in AtMINPP–OE but markedly decreased in atminpp/+. Yeast one-hybrid and chromatin immunoprecipitation assays indicated that the EIN3 transcription factor directly binds to the promoter of AtMINPP. Genetic analysis further revealed that AtMINPP–OE could accelerate the senescence of ein3–1eil1–3 mutants. These findings elucidate the mechanism by which AtMINPP regulates ethylene-induced leaf senescence in Arabidopsis, providing insights into the genetic manipulation of leaf senescence and plant growth.
- Subjects
TRANSCRIPTION factors; PHYTIC acid; INOSITOL phosphates; ARABIDOPSIS thaliana; CELL communication
- Publication
International Journal of Molecular Sciences, 2024, Vol 25, Issue 16, p8969
- ISSN
1661-6596
- Publication type
Article
- DOI
10.3390/ijms25168969