College of Agronomy/JCIC-MCP/National Key Laboratory of Crop Genetics and Germplasm Enhancement, Nanjing Agricultural University, Nanjing, 210095, People's Republic of China.
Institute of Germplasm Resources and Biotechnology/Provincial Key Laboratory of Agrobiology, Jiangsu Academy of Agricultural Sciences, Nanjing, 210014, People's Republic of China.
Theor Appl Genet. 2018 Dec;131(12):2613-2620. doi: 10.1007/s00122-018-3176-5. Epub 2018 Aug 30.
Pm62, a novel adult-plant resistance (APR) gene against powdery mildew, was transferred from D. villosum into common wheat in the form of Robertsonian translocation T2BS.2VL#5. Powdery mildew, which is caused by the fungus Blumeria graminis f. sp. tritici, is a major disease of wheat resulting in substantial yield and quality losses in many wheat production regions of the world. Introgression of resistance from wild species into common wheat has application for controlling this disease. A Triticum durum-Dasypyrum villosum chromosome 2V#5 disomic addition line, N59B-1 (2n = 30), improved resistance to powdery mildew at the adult-plant stage, which was attributable to chromosome 2V#5. To transfer this resistance into bread wheat, a total of 298 BCF plants derived from the crossing between N59B-1 and Chinese Spring were screened by combined genomic in situ hybridization and fluorescent in situ hybridization, 2V-specific marker analysis, and reaction to powdery mildew to confirm that a dominant adult-plant resistance gene, designated as Pm62, was located on chromosome 2VL#5. Subsequently, the 2VL#5 (2D) disomic substitution line (NAU1825) and the homozygous T2BS.2VL#5 Robertsonian translocation line (NAU1823), with normal plant vigor and full fertility, were identified by molecular and cytogenetic analyses of the BCF generation. The effects of the T2BS.2VL#5 recombinant chromosome on agronomic traits were also evaluated in the F segregation population. The results suggest that the translocated chromosome may have no distinct effect on plant height, 1000-kernel weight or flowering period, but a slight effect on spike length and seeds per spike. The translocation line NAU1823 has being utilized as a novel germplasm in breeding for powdery mildew resistance, and the effects of the T2BS.2VL#5 recombinant chromosome on yield-related and flour quality characters will be further assessed.
Pm62 是一个新型的成株期抗白粉病基因,来自 D. villosum,以罗伯逊易位 T2BS.2VL#5 的形式导入普通小麦。白粉病是由真菌 Blumeria graminis f. sp. tritici 引起的,是一种主要的小麦病害,在世界上许多小麦生产地区都会导致产量和品质的损失。将野生种的抗性导入普通小麦中,对于控制这种病害具有应用价值。一个 Triticum durum-Dasypyrum villosum 染色体 2V#5 二体附加系 N59B-1(2n = 30),在成株期对白粉病表现出改良的抗性,这归因于染色体 2V#5。为了将这种抗性转移到面包小麦中,通过结合基因组原位杂交和荧光原位杂交、2V 特异性标记分析以及对白粉病的反应,对 N59B-1 和中国春杂交产生的 298 株 BCF 植株进行了筛选,以确认一个显性成株期抗性基因,命名为 Pm62,位于染色体 2VL#5 上。随后,通过对 BCF 代的分子和细胞遗传学分析,鉴定出了 2VL#5(2D)二体替换系(NAU1825)和纯合 T2BS.2VL#5 罗伯逊易位系(NAU1823),它们具有正常的植株活力和完全的育性。还评估了 F 分离群体中 T2BS.2VL#5 重组染色体对农艺性状的影响。结果表明,该易位染色体对株高、千粒重或开花期可能没有明显影响,但对穗长和穗粒数有轻微影响。易位系 NAU1823 已作为一种新的白粉病抗性种质资源被利用,T2BS.2VL#5 重组染色体对产量相关和面粉品质性状的影响将进一步评估。
