Potassium (K) is the most abundant inorganic cation in plants, and molecular dissection of K deficiency has received considerable interest in order to minimize K fertilizer input and develop high quality K-efficient crops. However, the molecular mechanism of plant responses to K deficiency is still poorly understood. In this study, 2-week-old bread wheat seedlings grown hydroponically in Hoagland solution were transferred to K-free conditions for 8 d, and their root and leaf proteome profiles were assessed using the iTRAQ proteome method. Over 4000 unique proteins were identified, and 818 K-responsive protein species showed significant differences in abundance. The differentially expressed protein species were associated with diverse functions and exhibited organ-specific differences. Most of the differentially expressed protein species related to hormone synthesis were involved in jasmonic acid (JA) synthesis and the upregulated abundance of JA synthesis-related enzymes could result in the increased JA concentrations. Abundance of allene oxide synthase (AOS), one key JA synthesis-related enzyme, was significantly increased in K-deficient wheat seedlings, and its overexpression markedly increased concentrations of K and JA, altered the transcription levels of some genes encoding K-responsive protein species, as well as enhanced the tolerance of rice plants to low K or K deficiency. Moreover, rice AOS mutant () exhibited more sensitivity to low K or K deficiency. Our findings could highlight the importance of JA in K deficiency, and imply a network of molecular processes underlying plant responses to K deficiency.
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| http://dx.doi.org/10.1074/mcp.RA117.000032 | DOI Listing |
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