水杨酸限制细胞伸长,诱导液泡形态和 pH 值发生变化

Jonas Mueller, Yvonne Koenig, Sabrina Kaiser, Christian Loefke, Melanie Krebs, David Scheuring
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摘要

植物激素水杨酸(SA)是平衡植物防御和生长发育的关键因素。几十年来,人们一直在研究水杨酸在植物防御中的作用,但它对植物生长和发育的调控作用直到最近才受到关注。研究表明,施用 SA 可抑制生长,而不依赖于已建立的非致病基因表达相关受体(NPR)。然而,这种生长抑制作用在细胞水平上的潜在机制在很大程度上仍然难以捉摸。在这里,我们发现 SA 限制了细胞的伸长,并诱导液泡形态和 pH 值的变化。施用 SA 后,我们迅速观察到同型液泡融合和液泡 pH 值显著升高。这些变化似乎与植物激素辅助素无关,据报道,植物激素辅助素与 SA 有相互影响的作用。通过增加液泡 pH 值,SA 会直接影响细胞的基本功能,如囊泡贩运或营养储存,最终导致细胞大小受限和生长受限。我们的研究结果证明了一种不依赖 NPR 的生长衰减机制,它有可能使自由资源被转移以抵御环境压力。
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Salicylic Acid restricts cell elongation and induces changes of vacuolar morphology and pH
The phytohormone salicylic acid (SA) is a key factor to balance plant defence as well as growth and development. While its role in plant defence has been investigated for decades, regulation of plant growth and development has only come into focus recently. It has been demonstrated that SA application inhibits growth independently of the established Non-expressor of Pathogenesis Related (NPR) receptors. However, the underlying mechanism of this growth inhibition on the cellular level remains largely elusive. Here we show that SA restricts cell elongation and induces changes of vacuolar morphology and pH. Rapidly upon SA application we observe homotypic vacuole fusion and a significant increase in vacuolar pH. These changes seem to be independent of the phytohormone auxin which has been reported to crosstalk with SA. By increasing vacuolar pH, SA directly impacts basic cellular functions such as vesicle trafficking or nutrient storage, leading eventually to cell size restriction and limited growth. Our results demonstrate an NPR-independent mechanism to attenuate growth, potentially allowing free resources to be relocated to withstand environmental stresses.
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