期刊
PLOS ONE
卷 7, 期 12, 页码 -出版社
PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pone.0053136
关键词
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资金
- Fundamental Research Funds for the Central Universities [JC2011-2, BLYJ200903]
- Beijing Natural Science Foundation [6112017]
- National Natural Science Foundation of China [31170570]
- Foundation for the Supervisors of Beijing Excellent Doctoral Dissertations [YB20081002201]
- Scientific Research Support Project for Teachers with Doctor's Degrees, Jiangsu Normal University, China [11XLR23]
Extracellular ATP (eATP) has been implicated in mediating plant growth and antioxidant defense; however, it is largely unknown whether eATP might mediate salinity tolerance. We used confocal microscopy, a non-invasive vibrating ion-selective microelectrode, and quantitative real time PCR analysis to evaluate the physiological significance of eATP in the salt resistance of cell cultures derived from a salt-tolerant woody species, Populus euphratica. Application of NaCl (200 mM) shock induced a transient elevation in [eATP]. We investigated the effects of eATP by blocking P2 receptors with suramin and PPADS and applying an ATP trap system of hexokinase-glucose. We found that eATP regulated a wide range of cellular processes required for salt adaptation, including vacuolar Na+ compartmentation, Na+/H+ exchange across the plasma membrane (PM), K+ homeostasis, reactive oxygen species regulation, and salt-responsive expression of genes related to K+/Na+ homeostasis and PM repair. Furthermore, we found that the eATP signaling was mediated by H2O2 and cytosolic Ca2+ released in response to high salt in P. euphratica cells. We concluded that salt-induced eATP was sensed by purinoceptors in the PM, and this led to the induction of downstream signals, like H2O2 and cytosolic Ca2+, which are required for the upregulation of genes linked to K+/Na+ homeostasis and PM repair. Consequently, the viability of P. euphratica cells was maintained during a prolonged period of salt stress.
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