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利用高通量克隆与分子指纹图谱技术相结合从油菜中分离和表达重金属转运体的部分序列。

Isolation and expression analysis of partial sequences of heavy metal transporters from Brassica juncea by coupling high throughput cloning with a molecular fingerprinting technique.

机构信息

Department of Biotechnology, University of Calcutta, 35 Ballygunge Circular Road, Kolkata 700019, India.

出版信息

Planta. 2011 Jul;234(1):139-56. doi: 10.1007/s00425-011-1376-1. Epub 2011 Mar 11.

DOI:10.1007/s00425-011-1376-1
PMID:21394470
Abstract

Heavy metal transporters play a key role in regulating metal accumulation and transport in plants. These are important candidate genes to study in metal tolerant and accumulator plants for their potential use in environmental clean up. We coupled a degenerate primer-based RT-PCR approach with a molecular fingerprinting technique based on amplified rDNA restriction analysis (ARDRA) to identify novel ESTs corresponding to heavy metal transporters from metal accumulator Brassica juncea. We utilized this technique to clone several family members of natural resistance-associated macrophage proteins (NRAMP) and yellow stripe-like proteins (YSL) in a high throughput manner to distinguish between closely related isoforms and/or allelic variants from the allopolyploid B. juncea. Partial clones of 23 Brassica juncea NRAMPs and 27 YSLs were obtained with similarity to known Arabidopsis thaliana and Noccaea (Thlaspi) caerulescens NRAMP and YSL genes. The cloned transporters showed Brassica-specific changes in domains, which can have important functional consequences. Semi-quantitative RT-PCR-based expression analysis of chosen members indicated that even closely related isoforms/allelic variants of BjNRAMP and BjYSL have distinct tissue-specific and metal-dependent expressions which might be essential for adaptive fitness and heavy metal tolerance. Consistent to this, BjYSL6.1 and BjYSL5.8 were found to show elevated expressions specifically in cadmium-treated shoots and lead-treated roots of B. juncea, respectively.

摘要

重金属转运蛋白在调节植物金属积累和运输方面起着关键作用。这些是研究金属耐受和积累植物的重要候选基因,因为它们有可能用于环境清理。我们结合了基于简并引物的 RT-PCR 方法和基于扩增 rDNA 限制分析 (ARDRA) 的分子指纹技术,从金属积累植物芥菜中鉴定出与重金属转运蛋白相对应的新 EST。我们利用这项技术以高通量的方式克隆了几种天然抗性相关巨噬细胞蛋白 (NRAMP) 和黄条纹样蛋白 (YSL) 的家族成员,以区分来自异源多倍体芥菜的密切相关的同工型和/或等位变体。获得了 23 个芥菜 NRAMPs 和 27 个 YSLs 的部分克隆,与已知的拟南芥和 Noccaea(Thlaspi)caerulescens NRAMP 和 YSL 基因具有相似性。克隆的转运蛋白显示出在域中芥菜特异性的变化,这可能具有重要的功能后果。选择的成员的半定量 RT-PCR 表达分析表明,即使是 BjNRAMP 和 BjYSL 的密切相关的同工型/等位变体也具有独特的组织特异性和金属依赖性表达,这对于适应能力和重金属耐受性可能是必不可少的。与此一致,发现 BjYSL6.1 和 BjYSL5.8 分别在芥菜镉处理的芽和铅处理的根中特异性表达增加。

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