Ming Hao†,Meng Liu†,Jiangtao Luo,Chaolan Fan,Yingjin Yi,Lianquan Zhang,Zhongwei Yuan,Shunzong Ning,Youliang Zheng and Dengcai Liu
https://doi.org/10.3389/fpls.2018.01040
Abstract
Powdery mildew, caused by the fungusBlumeria graminisf. sp.tritici, represents a yield constraint in many parts of the world. Here, the introduction of a resistance gene carried by the cereal rye cv. Qinling chromosome 6R was transferred into wheat in the form of spontaneous balanced translocation induced in plants doubly monosomic for chromosomes 6R and 6A. The translocation, along with other structural variants, was detected usingin situhybridization and genetic markers. The differential disease response of plants harboring various fragments of 6R indicated that a powdery mildew resistance gene(s) was present on both arms of rye chromosome 6R. Based on karyotyping, the short arm gene, designatedPm56, was mapped to the subtelomere region of the arm. The Robertsonian translocation 6AL⋅6RS can be exploited by wheat breeders as a novel resistance resource.
