鉴定可能负责小麦和大麦对硼毒性耐受性的硼转运蛋白基因。

Identification of boron transporter genes likely to be responsible for tolerance to boron toxicity in wheat and barley.

作者信息

Reid Rob

机构信息

School of Earth and Environmental Sciences, University of Adelaide, Adelaide 5005, Australia.

出版信息

Plant Cell Physiol. 2007 Dec;48(12):1673-8. doi: 10.1093/pcp/pcm159. Epub 2007 Nov 14.

DOI:10.1093/pcp/pcm159

PMID:18003669

Abstract

Tolerance to boron (B) toxicity in cereals is known to be associated with reduced tissue accumulation of B. Genes from roots of B-tolerant cultivars of wheat and barley with high similarities to previously reported B efflux transporters from Arabidopsis and rice were cloned. Expression of these genes was strongly correlated with the ability of tolerant genotypes to lower the concentration of B in roots. The gene from barley located to chromosome 4. Backcross lines containing a B tolerance locus on chromosome 4 showed tolerance in proportion to the level of expression of the transporter gene, whereas those lacking the locus were sensitive to B and had very low levels of gene expression. The results are consistent with a widespread mechanism of tolerance to high B based on efflux of B from root cells.

摘要

已知谷物对硼（B）毒性的耐受性与组织中硼积累的减少有关。从小麦和大麦耐硼品种的根中克隆出了与先前报道的拟南芥和水稻硼外排转运蛋白高度相似的基因。这些基因的表达与耐硼基因型降低根中硼浓度的能力密切相关。来自大麦的该基因定位于4号染色体。在4号染色体上含有硼耐受位点的回交品系表现出的耐受性与转运蛋白基因的表达水平成正比，而那些缺乏该位点的品系对硼敏感且基因表达水平很低。这些结果与基于硼从根细胞中外排的广泛的高硼耐受性机制相一致。

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鉴定可能负责小麦和大麦对硼毒性耐受性的硼转运蛋白基因。

Identification of boron transporter genes likely to be responsible for tolerance to boron toxicity in wheat and barley.

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鉴定可能负责小麦和大麦对硼毒性耐受性的硼转运蛋白基因。

Identification of boron transporter genes likely to be responsible for tolerance to boron toxicity in wheat and barley.

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机构信息

出版信息

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