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磷脂酶Dα3参与拟南芥的高渗反应。

Phospholipase Dalpha3 is involved in the hyperosmotic response in Arabidopsis.

作者信息

Hong Yueyun, Pan Xiangqing, Welti Ruth, Wang Xuemin

机构信息

Department of Biology, University of Missouri, St. Louis, Missouri 63121, USA.

出版信息

Plant Cell. 2008 Mar;20(3):803-16. doi: 10.1105/tpc.107.056390. Epub 2008 Mar 25.

DOI:10.1105/tpc.107.056390
PMID:18364466
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2329935/
Abstract

Rapid activation of phospholipase D (PLD), which hydrolyzes membrane lipids to generate phosphatidic acid (PA), occurs under various hyperosmotic conditions, including salinity and water deficiency. The Arabidopsis thaliana PLD family has 12 members, and the function of PLD activation in hyperosmotic stress responses has remained elusive. Here, we show that knockout (KO) and overexpression (OE) of previously uncharacterized PLDalpha3 alter plant response to salinity and water deficit. PLDalpha3 uses multiple phospholipids as substrates with distinguishable preferences, and alterations of PLDalpha3 result in changes in PA level and membrane lipid composition. PLDalpha3-KO plants display increased sensitivities to salinity and water deficiency and also tend to induce abscisic acid-responsive genes more readily than wild-type plants, whereas PLDalpha3-OE plants have decreased sensitivities. In addition, PLDalpha3-KO plants flower later than wild-type plants in slightly dry conditions, whereas PLDalpha3-OE plants flower earlier. These data suggest that PLDalpha3 positively mediates plant responses to hyperosmotic stresses and that increased PLDalpha3 expression and associated lipid changes promote root growth, flowering, and stress avoidance.

摘要

磷脂酶D(PLD)可快速激活,它能水解膜脂生成磷脂酸(PA),这种激活在包括盐度和水分亏缺在内的各种高渗条件下都会发生。拟南芥的PLD家族有12个成员,而PLD激活在高渗胁迫反应中的功能一直难以捉摸。在这里,我们表明,此前未被鉴定的PLDα3的敲除(KO)和过表达(OE)会改变植物对盐度和水分亏缺的反应。PLDα3以多种磷脂为底物,且偏好各异,PLDα3的改变会导致PA水平和膜脂组成的变化。PLDα3基因敲除植株对盐度和水分亏缺的敏感性增加,并且比野生型植株更容易诱导脱落酸响应基因,而PLDα3过表达植株的敏感性降低。此外,在略干燥的条件下,PLDα3基因敲除植株比野生型植株开花晚,而PLDα3过表达植株开花早。这些数据表明,PLDα3正向介导植物对高渗胁迫的反应,并且PLDα3表达增加及相关的脂质变化促进根系生长、开花和胁迫规避。

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