Abstract
β-Cyclocitral (β-CC) is a volatile compound deriving from1O2oxidation of β-carotene in plant leaves. β-CC elicits a retrograde signaling, modulating1O2-responsive genes and enhancing tolerance to photooxidative stress. Here, we show that β-CC is largely converted into β-cyclocitric acid (β-CCA) in leaves and that this metabolite is a signal involved in stress tolerance. Treatment of Arabidopsis plants with β-CCA markedly enhanced plant tolerance to drought by a mechanism different from known responses such as stomatal closure, changes in osmotic potential and jasmonate signaling. Furthermore, we show that the response to β-CCA does not fully overlap with the β-CC-dependent signaling, indicating that β-CCA induces only a branch of the β-CC signaling pathway. In addition, the protective effect of β-CCA is a conserved mechanism, being observed in a variety of plant species. This study provides a new bioactive agent with promising agronomic applications for protecting plants against drought.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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