Logoteta B, Xu X Y, Macnair M R, McGrath S P, Zhao F J
Rothamsted Research, Harpenden, Herts AL5 2JQ, UK.
Dipartimento di Biotecnologie per il Monitoraggio Agro-alimentare ed Ambientale (BIOMAA), Universita' Mediterranea di Reggio Calabria, Facolta' di Agraria - Loc. Feo di Vito, I-89060 Reggio Calabria, Italia.
New Phytol. 2009;183(2):340-348. doi: 10.1111/j.1469-8137.2009.02841.x. Epub 2009 Apr 14.
Arsenate tolerance in Holcus lanatus is achieved mainly through suppressed arsenate uptake. We recently showed that plant roots can rapidly efflux arsenite to the external medium. Here, we tested whether arsenite efflux is a component of the adaptive arsenate tolerance in H. lanatus. Tolerant and nontolerant phenotypes were exposed to different arsenate concentrations with or without phosphate for 24 h, and arsenic (As) speciation was determined in nutrient solutions, roots and xylem sap. At the same arsenate exposure concentration, the nontolerant phenotype took up more arsenate and effluxed more arsenite than the tolerant phenotype. However, arsenite efflux was proportional to arsenate uptake and was not enhanced in the tolerant phenotype. Within 2-24 h, most (80-100%) of the arsenate taken up was effluxed to the medium as arsenite. About 86-95% of the As in the roots and majority of the As in xylem sap (c. 66%) was present as arsenite, and there were no significant differences between phenotypes. Arsenite efflux is not adaptively enhanced in the tolerant phenotype H. lanatus, but it could be a basal tolerance mechanism to greatly decrease cellular As burden in both phenotypes. Tolerant and nontolerant phenotypes had a similar capacity to reduce arsenate in roots.
绒毛草对砷酸盐的耐受性主要通过抑制砷酸盐吸收来实现。我们最近发现植物根系能够迅速将亚砷酸盐外排到外部介质中。在此,我们测试了亚砷酸盐外排是否是绒毛草对砷酸盐适应性耐受的一个组成部分。将耐受和不耐受表型的植株暴露于不同砷酸盐浓度下,并分别在添加或不添加磷酸盐的情况下处理24小时,然后测定营养液、根系和木质部汁液中的砷(As)形态。在相同的砷酸盐暴露浓度下,不耐受表型比耐受表型吸收更多的砷酸盐并外排更多的亚砷酸盐。然而,亚砷酸盐外排与砷酸盐吸收成正比,且在耐受表型中并未增强。在2 - 24小时内,吸收的大部分(80 - 100%)砷酸盐以亚砷酸盐形式外排到介质中。根系中约86 - 95%的砷以及木质部汁液中大部分的砷(约66%)以亚砷酸盐形式存在,且两种表型之间无显著差异。在耐受表型的绒毛草中,亚砷酸盐外排并未适应性增强,但它可能是一种基础耐受机制,可大幅降低两种表型细胞内的砷负荷。耐受和不耐受表型在根系中还原砷酸盐的能力相似。
