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本文引用的文献

1
AtALMT1, which encodes a malate transporter, is identified as one of several genes critical for aluminum tolerance in Arabidopsis.AtALMT1编码一种苹果酸转运蛋白,被鉴定为拟南芥中对铝耐受性至关重要的几个基因之一。
Proc Natl Acad Sci U S A. 2006 Jun 20;103(25):9738-43. doi: 10.1073/pnas.0602868103. Epub 2006 Jun 1.
2
Mechanism of aluminum tolerance in snapbeans : root exudation of citric Acid.菜豆耐铝机制:柠檬酸的根系分泌
Plant Physiol. 1991 Jul;96(3):737-43. doi: 10.1104/pp.96.3.737.
3
Citrate, Malate, and Succinate Concentration in Exudates from P-Sufficient and P-Stressed Medicago sativa L. Seedlings.富含磷和缺磷条件下紫花苜蓿幼苗渗出液中的柠檬酸盐、苹果酸盐和琥珀酸盐浓度。
Plant Physiol. 1987 Oct;85(2):315-7. doi: 10.1104/pp.85.2.315.
4
Molecular characterization and mapping of ALMT1, the aluminium-tolerance gene of bread wheat (Triticum aestivum L.).面包小麦(普通小麦)耐铝基因ALMT1的分子特征分析与定位
Genome. 2005 Oct;48(5):781-91. doi: 10.1139/g05-054.
5
Organic acid secretion as a mechanism of aluminium resistance: a model incorporating the root cortex, epidermis, and the external unstirred layer.
J Exp Bot. 2005 Jul;56(417):1853-65. doi: 10.1093/jxb/eri175. Epub 2005 May 31.
6
Evidence for the plasma membrane localization of Al-activated malate transporter (ALMT1).铝激活苹果酸转运蛋白(ALMT1)定位于质膜的证据。
Plant Cell Physiol. 2005 May;46(5):812-6. doi: 10.1093/pcp/pci083. Epub 2005 Mar 15.
7
Engineering high-level aluminum tolerance in barley with the ALMT1 gene.利用ALMT1基因培育具有高耐铝性的大麦。
Proc Natl Acad Sci U S A. 2004 Oct 19;101(42):15249-54. doi: 10.1073/pnas.0406258101. Epub 2004 Oct 7.
8
Comparative mapping of a major aluminum tolerance gene in sorghum and other species in the poaceae.高粱及禾本科其他物种中一个主要耐铝基因的比较图谱分析
Genetics. 2004 Aug;167(4):1905-14. doi: 10.1534/genetics.103.023580.
9
The role of phosphorus in aluminium-induced citrate and malate exudation from rape (Brassica napus).磷在铝诱导油菜(甘蓝型油菜)分泌柠檬酸和苹果酸中的作用。
Physiol Plant. 2004 Apr;120(4):575-584. doi: 10.1111/j.0031-9317.2004.0290.x.
10
A wheat gene encoding an aluminum-activated malate transporter.一个编码铝激活苹果酸转运蛋白的小麦基因。
Plant J. 2004 Mar;37(5):645-53. doi: 10.1111/j.1365-313x.2003.01991.x.

来自油菜的BnALMT1和BnALMT2基因编码铝激活的苹果酸转运蛋白,可增强植物细胞的耐铝性。

The BnALMT1 and BnALMT2 genes from rape encode aluminum-activated malate transporters that enhance the aluminum resistance of plant cells.

作者信息

Ligaba Ayalew, Katsuhara Maki, Ryan Peter R, Shibasaka Mineo, Matsumoto Hideaki

机构信息

Research Institute for Bioresources, Okayama University, Chuo 2-20-1, Kurashiki 710-0046, Japan.

出版信息

Plant Physiol. 2006 Nov;142(3):1294-303. doi: 10.1104/pp.106.085233. Epub 2006 Oct 6.

DOI:10.1104/pp.106.085233
PMID:17028155
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1630743/
Abstract

The release of organic anions from roots can protect plants from aluminum (Al) toxicity and help them overcome phosphorus (P) deficiency. Our previous findings showed that Al treatment induced malate and citrate efflux from rape (Brassica napus) roots, and that P deficiency did not induce the efflux. Since this response is similar to the malate efflux from wheat (Triticum aestivum) that is controlled by the TaALMT1 gene, we investigated whether homologs of TaALMT1 are present in rape and whether they are involved in the release of organic anions. We isolated two TaALMT1 homologs from rape designated BnALMT1 and BnALMT2 (B. napus Al-activated malate transporter). The expression of these genes was induced in roots, but not shoots, by Al treatment but P deficiency had no effect. Several other cations (lanthanum, ytterbium, and erbium) also increased BnALMT1 and BnALMT2 expression in the roots. The function of the BnALMT1 and BnALMT2 proteins was investigated by heterologous expression in cultured tobacco (Nicotiana tabacum) cells and in Xenopus laevis oocytes. Both transfection systems showed an enhanced capacity for malate efflux but not citrate efflux, when exposed to Al. Smaller malate fluxes were also activated by ytterbium and erbium treatment. Transgenic tobacco cells grew significantly better than control cells following an 18 h treatment with Al, indicating that the expression of BnALMT1 and BnALMT2 increased the resistance of these plant cells to Al stress. This report demonstrates that homologs of the TaALMT1 gene from wheat perform similar functions in other species.

摘要

根系释放有机阴离子可保护植物免受铝(Al)毒害,并帮助它们克服磷(P)缺乏问题。我们之前的研究结果表明,铝处理会诱导油菜(Brassica napus)根系中苹果酸和柠檬酸外流,而缺磷不会诱导这种外流。由于这种反应类似于受TaALMT1基因控制的小麦(Triticum aestivum)根系苹果酸外流,我们研究了油菜中是否存在TaALMT1的同源物,以及它们是否参与有机阴离子的释放。我们从油菜中分离出两个TaALMT1同源物,命名为BnALMT1和BnALMT2(甘蓝型油菜铝激活苹果酸转运蛋白)。铝处理诱导了这些基因在根中的表达,但在地上部未诱导,而缺磷则没有影响。其他几种阳离子(镧、镱和铒)也增加了根中BnALMT1和BnALMT2的表达。通过在培养的烟草(Nicotiana tabacum)细胞和非洲爪蟾(Xenopus laevis)卵母细胞中进行异源表达,研究了BnALMT1和BnALMT2蛋白的功能。当暴露于铝时,两种转染系统均显示苹果酸外流能力增强,但柠檬酸外流能力未增强。镱和铒处理也激活了较小的苹果酸通量。用铝处理18小时后,转基因烟草细胞的生长明显优于对照细胞,这表明BnALMT1和BnALMT2的表达增加了这些植物细胞对铝胁迫的抗性。本报告表明,来自小麦的TaALMT1基因的同源物在其他物种中具有相似的功能。