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拟南芥中的电压依赖性阴离子通道(VDACs)在细胞中有双重定位,但在线粒体中发挥着明显不同的作用。

Voltage-dependent-anion-channels (VDACs) in Arabidopsis have a dual localization in the cell but show a distinct role in mitochondria.

机构信息

Institut des Sciences du Végétal, CNRS-UPR 2355, Bât. 22, 91198 Gif sur Yvette Cedex, France.

出版信息

Plant Mol Biol. 2012 Mar;78(4-5):431-46. doi: 10.1007/s11103-012-9874-5.

DOI:10.1007/s11103-012-9874-5
PMID:22294207
Abstract

In mammals, the Voltage-dependent anion channels (VDACs) are predominant proteins of the outer mitochondrial membrane (OMM) where they contribute to the exchange of small metabolites essential for respiration. They were shown to be as well associated with the plasma membrane (PM) and act as redox enzyme or are involved in ATP release for example. In Arabidopsis, we show that four out of six genomic sequences encode AtVDAC proteins. All four AtVDACs are ubiquitously expressed in the plant but each of them displays a specific expression pattern in root cell types. Using two complementary approaches, we demonstrate conclusively that the four expressed AtVDACs are targeted to both mitochondria and plasma membrane but in differential abundance, AtVDAC3 being the most abundant in PM, and conversely, AtVDAC4 almost exclusively associated with mitochondria. These are the first plant proteins to be shown to reside in both these two membranes. To investigate a putative function of AtVDACs, we analyzed T-DNA insertion lines in each of the corresponding genes. Knock-out mutants for AtVDAC1, AtVDAC2 and AtVDAC4 present slow growth, reduced fertility and yellow spots in leaves when atvdac3 does not show any visible difference compared to wildtype plants. Analyses of atvdac1 and atvdac4 reveal that yellow areas correspond to necrosis and the mitochondria are swollen in these two mutants. All these results suggest that, in spite of a localization in plasma membrane for three of them, AtVDAC1, AtVDAC2 and AtVDAC4 have a main function in mitochondria.

摘要

在哺乳动物中,电压依赖性阴离子通道(VDACs)是外线粒体膜(OMM)的主要蛋白质,它们有助于交换呼吸所必需的小分子代谢物。它们也被证明与质膜(PM)相关联,并作为氧化还原酶发挥作用,或者例如参与 ATP 的释放。在拟南芥中,我们表明六个基因组序列中有四个编码 AtVDAC 蛋白。所有四个 AtVDAC 都在植物中广泛表达,但它们在根细胞类型中都显示出特定的表达模式。使用两种互补的方法,我们明确证明了四种表达的 AtVDAC 都靶向线粒体和质膜,但丰度不同,AtVDAC3 在 PM 中最丰富,相反,AtVDAC4 几乎仅与线粒体相关联。这些是第一个被证明存在于这两种膜中的植物蛋白。为了研究 AtVDACs 的可能功能,我们分析了每个相应基因的 T-DNA 插入系。与野生型植物相比,atvdac3 没有任何可见差异,atvdac1、atvdac2 和 atvdac4 的敲除突变体生长缓慢、繁殖力降低且叶片出现黄斑。对 atvdac1 和 atvdac4 的分析表明,黄斑对应于坏死,并且这两个突变体中的线粒体肿胀。所有这些结果表明,尽管其中三个的定位于质膜,但 AtVDAC1、AtVDAC2 和 AtVDAC4 在功能上主要位于线粒体。

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J Exp Bot. 2011 Oct;62(14):4773-85. doi: 10.1093/jxb/err113. Epub 2011 Jun 24.
2
Arabidopsis plasmodesmal proteome.拟南芥胞间连丝蛋白组。
PLoS One. 2011 Apr 20;6(4):e18880. doi: 10.1371/journal.pone.0018880.
3
Morphological classification of plant cell deaths.植物细胞死亡的形态分类。
植物线粒体 FMT 及其哺乳动物同源物 CLUH 控制拟南芥的发育和行为以及小鼠的运动。
Cell Mol Life Sci. 2022 Jun 2;79(6):334. doi: 10.1007/s00018-022-04382-3.
4
VDAC1 Negatively Regulates Floral Transition in .VDAC1 负调控. 中的花发育转变。
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