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AtMRP2,一种能够转运谷胱甘肽S-共轭物和叶绿素分解代谢物的拟南芥ATP结合盒转运蛋白:与Atmrp1的功能比较

AtMRP2, an Arabidopsis ATP binding cassette transporter able to transport glutathione S-conjugates and chlorophyll catabolites: functional comparisons with Atmrp1.

作者信息

Lu Y P, Li Z S, Drozdowicz Y M, Hortensteiner S, Martinoia E, Rea P A

机构信息

Plant Science Institute, Department of Biology, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6018, USA.

出版信息

Plant Cell. 1998 Feb;10(2):267-82. doi: 10.1105/tpc.10.2.267.

Abstract

Three ATP binding cassette (ABC) transporter-like activities directed toward large amphipathic organic anions have recently been identified on the vacuolar membrane of plant cells. These are the Mg-ATP-energized, vanadate-inhibitable vacuolar accumulation of glutathione S-conjugates (GS conjugates), chlorophyll catabolites, and bile acids, respectively. Although each of these activities previously had been assigned to distinct pumps in native plant membranes, we describe here the molecular cloning, physical mapping, and heterologous expression of a gene, AtMRP2, from Arabidopsis thaliana that encodes a multispecific ABC transporter competent in the transport of both GS conjugates and chlorophyll catabolites. Unlike its isoform, AtMRP1, which transports the model Brassica napus chlorophyll catabolite transporter substrate Bn-NCC-1 at low efficiency, heterologously expressed AtMRP2 has the facility for simultaneous high-efficiency parallel transport of GS conjugates and Bn-NCC-1. The properties of AtMRP2 therefore establish a basis for the manipulation of two previously identified plant ABC transporter activities and provide an explanation for how the comparable transporter in native plant membranes would be systematically mistaken for two distinct transporters. These findings are discussed with respect to the functional organization of AtMRP2, the inability of AtMRP2 and AtMRP1 to transport the model bile acid transporter substrate taurocholate (despite the pronounced sensitivity of both to direct inhibition by this agent), the differential patterns of expression of their genes in the intact plant, and the high capacity of AtMRP2 for the transport of glutathionated herbicides and anthocyanins.

摘要

最近在植物细胞的液泡膜上发现了三种针对大的两亲性有机阴离子的ATP结合盒(ABC)转运蛋白样活性。这些分别是由Mg-ATP供能、钒酸盐抑制的谷胱甘肽S-共轭物(GS共轭物)、叶绿素分解代谢物和胆汁酸的液泡积累。尽管这些活性之前都被认为是天然植物膜中不同的泵所具有的,但我们在此描述了来自拟南芥的一个基因AtMRP2的分子克隆、物理定位和异源表达,该基因编码一种多特异性ABC转运蛋白,能够转运GS共轭物和叶绿素分解代谢物。与其异构体AtMRP1不同,AtMRP1对模式底物油菜素内酯叶绿素分解代谢物转运蛋白底物Bn-NCC-1的转运效率较低,而异源表达的AtMRP2具有同时高效并行转运GS共轭物和Bn-NCC-1的能力。因此,AtMRP2的特性为操纵两种先前确定的植物ABC转运蛋白活性奠定了基础,并解释了天然植物膜中类似的转运蛋白如何被系统地误认为是两种不同的转运蛋白。我们还讨论了这些发现与AtMRP2的功能组织、AtMRP2和AtMRP1无法转运模式胆汁酸转运蛋白底物牛磺胆酸盐(尽管两者对该试剂的直接抑制都很敏感)、它们的基因在完整植物中的差异表达模式以及AtMRP2对谷胱甘肽化除草剂和花青素的高转运能力之间的关系。

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