Elevated expression of metal transporter genes in three accessions of the metal hyperaccumulator Thlaspi caerulescens

Plant Cell and Environment Pub Date : 2001-02-01 DOI:10.1046/J.1365-3040.2001.00666.X

A. Assunção, P. C. Martins, S. Folter, R. Vooijs, H. Schat, M. Aarts

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引用次数: 361

Abstract

Heavy metal hyperaccumulation in plants is an intriguing and poorly understood phenomenon. Transmembrane metal transporters are assumed to play a key role in this process. We describe the cloning and isolation of three zinc transporter cDNAs from the Zn hyperaccumulator Thlaspi caerulescens. The ZTP1 gene is highly similar to the Arabidopsis ZAT gene. Of the other two, one is most probably an allele of the recently cloned ZNT1 gene from T. caerulescens ( Pence et al; Proceedings of the National Academy of Science USA 97, 4956-4960, 2000). The second, called ZNT2, is a close homologue of ZNT1. All three zinc transporter genes show increased expression in T. caerulescens compared with the non-hyperaccumulator congener T. arvense, suggesting an important role in heavy metal hyperaccumulation. ZNT1 and ZNT2 are predominantly expressed in roots and ZTP1 is mainly expressed in leaves but also in roots. In T. arvense, ZNT1 and ZNT2 are exclusively expressed under conditions of Zn deficiency. Their expression in T. caerulescens is barely Zn-responsive, suggesting that Zn hyperaccumulation might rely on a decreased Zn-induced transcriptional downregulation of these genes. ZTP1 expression was higher in plants from calamine soil than in plants from serpentine or normal soil. The calamine plants were also the most Zn tolerant, suggesting that high ZTP1 expression might contribute to Zn tolerance.

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金属转运体基因在三种金属超积累植物海苔中的表达升高

重金属在植物体内的超积累是一个有趣而又鲜为人知的现象。跨膜金属转运体被认为在这一过程中起关键作用。本文报道了从锌超富集植物蓝齿草(Thlaspi caerulescens)中克隆和分离出3个锌转运体cdna。ZTP1基因与拟南芥ZAT基因高度相似。在其他两个中，一个很可能是最近从T. caerulescens克隆的ZNT1基因的等位基因(Pence等;美国国家科学院学报97,4956-4960,2000)。第二种称为ZNT2，是ZNT1的同源物。这3种锌转运蛋白基因在毛茛中的表达均高于非高富集基因的同系物黄颡鱼，表明锌转运蛋白基因在重金属高富集中起重要作用。ZNT1和ZNT2主要在根中表达，ZTP1主要在叶中表达，但也在根中表达。在T. arvense中，ZNT1和ZNT2在缺锌条件下只表达。它们在T. caerulescens中的表达几乎不受锌的影响，这表明锌的过度积累可能依赖于锌诱导的这些基因转录下调的减少。炉甘石土中ZTP1的表达量高于蛇纹石土和正常土。炉甘石植株对锌的耐受性最强，表明ZTP1的高表达可能有助于锌的耐受性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Plant Cell and Environment

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