Han C, Dai S F, Liu D C, Pu Z J, Wei Y M, Zheng Y L, Wen D J, Zhao L, Yan Z H
Triticeae Research Institute, Sichuan Agricultural University, Chengdu, Sichuan, China.
Genet Mol Res. 2013 Nov 18;12(4):5602-16. doi: 10.4238/2013.November.18.9.
Previous genetic studies on wheat from various sources have indicated that aluminum (Al) tolerance may have originated independently in USA, Brazil, and China. Here, TaALMT1 promoter sequences of 92 landraces and cultivars from Sichuan, China, were sequenced. Five promoter types (I', II, III, IV, and V) were observed in 39 cultivars, and only three promoter types (I, II, and III) were observed in 53 landraces. Among the wheat collections worldwide, only the Chinese Spring (CS) landrace native to Sichuan, China, carried the TaALMT1 promoter type III. Besides CS, two other Sichuan-bred landraces and six cultivars with TaALMT1 promoter type III were identified in this study. In the phylogenetic tree constructed based on the TaALMT1 promoter sequences, type III formed a separate branch, which was supported by a high bootstrap value. It is likely that TaALMT1 promoter type III originated from Sichuan-bred wheat landraces of China. In addition, the landraces with promoter type I showed the lowest Al tolerance among all landraces and cultivars. Furthermore, the cultivars with promoter type IV showed better Al tolerance than landraces with promoter type II. A comparison of acid tolerance and Al tolerance between cultivars and landraces showed that the landraces had better acid tolerance than the cultivars, whereas the cultivars showed better Al tolerance than the landraces. Moreover, significant difference in Al tolerance was also observed between the cultivars raised by the National Ministry of Agriculture and by Sichuan Province. Among the landraces from different regions, those from the East showed better acid tolerance and Al tolerance than those from the South and West of Sichuan. Additional Al-tolerant and acid-tolerant wheat lines were also identified.
以往对来自不同来源小麦的遗传学研究表明,铝(Al)耐受性可能在美国、巴西和中国独立起源。在此,对来自中国四川的92个地方品种和栽培品种的TaALMT1启动子序列进行了测序。在39个栽培品种中观察到五种启动子类型(I'、II、III、IV和V),而在53个地方品种中仅观察到三种启动子类型(I、II和III)。在全球范围内的小麦种质资源中,只有原产于中国四川的中国春(CS)地方品种携带TaALMT1启动子III型。除CS外,本研究还鉴定出另外两个四川培育的地方品种和六个具有TaALMT1启动子III型的栽培品种。在基于TaALMT1启动子序列构建的系统发育树中,III型形成了一个单独的分支,其自展值较高,得到了支持。TaALMT1启动子III型很可能起源于中国四川培育的小麦地方品种。此外,启动子I型的地方品种在所有地方品种和栽培品种中表现出最低的铝耐受性。此外,启动子IV型的栽培品种比启动子II型的地方品种表现出更好的铝耐受性。栽培品种和地方品种之间耐酸性和耐铝性的比较表明,地方品种的耐酸性优于栽培品种,而栽培品种的耐铝性优于地方品种。此外,由国家农业部和四川省培育的栽培品种之间在耐铝性方面也观察到显著差异。在来自不同地区的地方品种中,来自东部的地方品种比来自四川南部和西部的地方品种表现出更好的耐酸性和耐铝性。还鉴定出了其他耐铝和耐酸的小麦品系。