Identification and transfer of a new Pm21 haplotype with high genetic diversity and a special molecular resistance mechanism.

A new functional Pm21 haplotype, Pm21(8#), was cloned from the new wheat-H. villosa translocation line T6VS(8#)·6DL, which confers the same strong resistance to powdery mildew through a different resistance mechanism. Broad-spectrum disease resistance genes are desirable in crop breeding for conferring stable, durable resistance in field production. Pm21(4#) is a gene introduced from wild Haynaldia villosa into wheat that confers broad-spectrum resistance to wheat powdery mildew and has been widely used in wheat production for approximately 30 years. The discovery and transfer of new functional haplotypes of Pm21 into wheat will expand its genetic diversity in production and avoid the breakdown of resistance conferred by a single gene on a large scale. Pm21(4#) previously found from T6VS(4#)·6AL has been cloned. In this study, a new wheat-H. villosa translocation, T6VS(8#)·6DL, was identified. A new functional Pm21 haplotype, designated Pm21(8#), was cloned and characterized. The genomic structures and the splicing patterns of Pm21(4#) and Pm21(8#) were different, and widespread sequence diversity was observed in the gene coding region and the promoter region. In the field, Pm21(8#) conferred resistance to Blumeria graminis f. sp. tritici (Bgt), similar to Pm21(4#), indicating that Pm21(8#) was also a resistance gene. However, Bgt development during the infection stage was obviously different between Pm21(4#)- and Pm21(8#)-containing materials under the microscopic observation. Pm21(4#) inhibited the formation of haustoria and the development of hyphae in the initial infection stage, while Pm21(8#) limited the growth of hyphae and inhibited the formation of conidiophores in the late infection stage. Therefore, Pm21(8#) is a new functional Pm21 haplotype that provides a new gene resource for wheat breeding.