Abstract
BackgroundProductivity of important crop rice is greatly affected by salinity. The plant hormone jasmonate plays a vital role in salt stress adaptation, but also evokes detrimental side effects if not timely shut down again. As novel strategy to avoid such side effects, OsJAZ8, a negative regulator of jasmonate signalling, is expressed under control of the salt-inducible promoter of the transcription factor ZOS3–11, to obtain a transient jasmonate signature in response to salt stress. To modulate the time course of jasmonate signalling, either a full-length or a dominant negative C-terminally truncated version of OsJAZ8 driven by the ZOS3–11 promoter were expressed in a stable manner either in tobacco BY-2 cells, or in japonica rice.ResultsThe transgenic tobacco cells showed reduced mortality and efficient cycling under salt stress adaptation. This was accompanied by reduced sensitivity to Methyl jasmonate and increased responsiveness to auxin. In the case of transgenic rice, the steady-state levels of OsJAZ8 transcripts were more efficiently induced under salt stress compared to the wild type, this induction was more pronounced in the dominant-negative OsJAZ8 variant.ConclusionsThe result concluded that, more efficient activation of OsJAZ8 was accompanied by improved salt tolerance of the transgenic seedlings and demonstrates the impact of temporal signatures of jasmonate signalling for stress tolerance.
Highlights
IntroductionThe plant hormone jasmonate plays a vital role in salt stress adaptation, and evokes detrimental side effects if not timely shut down again
Productivity of important crop rice is greatly affected by salinity
To examine the subcellular localization of these proteins, ZOS3–11/12-GFP fusion proteins were transiently expressed under the control of the cauliflower mosaic virus (CaMV) 35S promoter in rice coleoptile (Fig. 1) and Bright Yellow 2 (BY-2)
Summary
The plant hormone jasmonate plays a vital role in salt stress adaptation, and evokes detrimental side effects if not timely shut down again. The phytohormone jasmonic acid (JA) has been found to increase under salt stress in rice roots, and exogenous JAs were reported to modulate salinity-induced changes of gene expression [3]. JA signalling is thought to play a vital role in the adaptation to salt stress and other types of abiotic stress factors [6,7,8,9] This notion is supported by the observation that JA biosynthesis rice mutants (cpm and hebiba) impaired in the function of enzyme ALLENE OXIDE CYCLASE (AOC) show improved tolerance to salt stress [10], and to drought stress [7]. It has been shown that constitutive overexpression of JAZ genes leads to improved abiotic stress tolerance [12]
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