Robert W. Holley Center for Agriculture and Health, USDA Agricultural Research Service, Cornell University, Ithaca, NY 14853, USA.
Plant J. 2010 Mar;61(5):728-40. doi: 10.1111/j.1365-313X.2009.04103.x. Epub 2009 Dec 10.
Crop yields are significantly reduced by aluminum (Al) toxicity on acidic soils, which comprise up to 50% of the world's arable land. Al-activated release of ligands (such as organic acids) from the roots is a major Al tolerance mechanism in plants. In maize, Al-activated root citrate exudation plays an important role in tolerance. However, maize Al tolerance is a complex trait involving multiple genes and physiological mechanisms. Recently, transporters from the MATE family have been shown to mediate Al-activated citrate exudation in a number of plant species. Here we describe the cloning and characterization of two MATE family members in maize, ZmMATE1 and ZmMATE2, which co-localize to major Al tolerance QTL. Both genes encode plasma membrane proteins that mediate significant anion efflux when expressed in Xenopus oocytes. ZmMATE1 expression is mostly concentrated in root tissues, is up-regulated by Al and is significantly higher in Al-tolerant maize genotypes. In contrast, ZmMATE2 expression is not specifically localized to any particular tissue and does not respond to Al. [(14)C]-citrate efflux experiments in oocytes demonstrate that ZmMATE1 is a citrate transporter. In addition, ZmMATE1 expression confers a significant increase in Al tolerance in transgenic Arabidopsis. Our data suggests that ZmMATE1 is a functional homolog of the Al tolerance genes recently characterized in sorghum, barley and Arabidopsis, and is likely to underlie the largest maize Al tolerance QTL found on chromosome 6. However, ZmMATE2 most likely does not encode a citrate transporter, and could be involved in a novel Al tolerance mechanism.
作物产量在酸性土壤中的铝(Al)毒性下显著降低,而酸性土壤占世界可耕地的 50%。Al 激活根系释放配体(如有机酸)是植物耐 Al 的主要机制。在玉米中,Al 激活的根柠檬酸分泌在耐 Al 性中起重要作用。然而,玉米的 Al 耐受性是一个复杂的性状,涉及多个基因和生理机制。最近,MATE 家族的转运蛋白已被证明在许多植物物种中介导 Al 激活的柠檬酸分泌。在这里,我们描述了玉米中两个 MATE 家族成员 ZmMATE1 和 ZmMATE2 的克隆和特性,它们共同定位在主要的 Al 耐受性 QTL 上。这两个基因编码质膜蛋白,当在非洲爪蟾卵母细胞中表达时,能介导显著的阴离子外排。ZmMATE1 的表达主要集中在根组织中,受 Al 诱导上调,在 Al 耐受型玉米基因型中表达水平显著升高。相比之下,ZmMATE2 的表达没有特定地定位到任何特定的组织,也不受 Al 响应。卵母细胞中的 [(14)C]-柠檬酸外排实验表明 ZmMATE1 是一种柠檬酸转运蛋白。此外,ZmMATE1 的表达在转基因拟南芥中赋予了显著的 Al 耐受性增加。我们的数据表明,ZmMATE1 是最近在高粱、大麦和拟南芥中鉴定的 Al 耐受性基因的功能同源物,并且很可能是在第 6 号染色体上发现的最大的玉米 Al 耐受性 QTL 的基础。然而,ZmMATE2 很可能不编码柠檬酸转运蛋白,并且可能参与一种新的 Al 耐受性机制。
