The Applied Plant Genomics Laboratory of Crop Genomics and Bioinformatics Centre, Nanjing Agricultural University, Nanjing, 210095, Jiangsu, China.
Planta. 2018 Nov;248(5):1319-1328. doi: 10.1007/s00425-018-2990-y. Epub 2018 Aug 20.
Fine mapping of wheat powdery mildew-resistance gene Pm4e to a 0.19 cM interval with sequence-based markers provides the foundation for map-based cloning and marker-assisted selection with breeder-friendly markers. Powdery mildew caused by Blumeria graminis f. sp. tritici is a wheat foliar disease that poses a serious threat to global wheat production. Pm4 is a resistance gene locus that has played a key role in controlling this disease in wheat production and a few resistance alleles of this locus have been identified. We have previously mapped the Pm4e allele to a 6.7 cM interval on chromosome 2AL. In this study, Pm4e was delimited to a 0.19 cM interval flanked by Xwgrc763 and Xwgrc865, through employment of a larger segregating population, derived from the cross of resistant parent D29 with susceptible parent Yangmai 158 (Y158), and enrichment of the genetic interval with markers developed on Chinese Spring (C.S.) survey sequence. In this interval, Pm4e co-segregated with a few markers, some of which were either D29-dominant or Y158-dominant, implying great sequence variation in the interval between D29 and Y158. Most of these co-segregation markers could not differentiate the Pm4 alleles from each other. Survey of 55 wheat cultivars with four co-dominant markers showed that the Pm4e-co-segregating loci always co-exist. Annotation of the Pm4e interval-corresponding C.S. sequence revealed more than a dozen resistance gene analogs clustered in a 2.4 Mb region, although C.S. is susceptible to the Pm4e-avirulent isolate Bgt2. This study has established the foundation for map-based cloning of Pm4e. Moreover, some of the co-dominant markers developed in this study could help in marker-assisted transfer of Pm4e into elite cultivars.
小麦白粉病抗性基因 Pm4e 的精细定位到一个基于序列的标记 0.19cM 区间,为基于图谱的克隆和具有育种友好标记的标记辅助选择提供了基础。由禾本科布氏白粉菌引起的白粉病是一种对全球小麦生产构成严重威胁的小麦叶部病害。Pm4 是一个抗性基因座,在控制小麦生产中的这种病害方面发挥了关键作用,并且已经鉴定出该基因座的几个抗性等位基因。我们之前将 Pm4e 等位基因定位到 2AL 染色体上的 6.7cM 区间。在这项研究中,通过使用来自抗性亲本 D29 与感病亲本扬麦 158(Y158)的杂交群体,并利用在中华春麦(C.S.)调查序列上开发的标记富集遗传区间,将 Pm4e 限定在一个由 Xwgrc763 和 Xwgrc865 侧翼的 0.19cM 区间内。在这个区间内,Pm4e 与一些标记共分离,其中一些标记是 D29 显性或 Y158 显性,这意味着在 D29 和 Y158 之间的区间存在很大的序列变异。这些共分离标记中的大多数都无法区分 Pm4 等位基因。对 55 个小麦品种的四个共显性标记进行调查表明,Pm4e 共分离位点总是共存的。对 Pm4e 区间对应的 C.S.序列进行注释发现,在一个 2.4Mb 的区域内聚集了十几个抗性基因类似物,尽管 C.S.对 Pm4e 无毒的分离物 Bgt2 敏感。这项研究为 Pm4e 的图谱克隆奠定了基础。此外,本研究开发的一些共显性标记可以帮助将 Pm4e 转移到优良品种中。
