Abstract
The rye (Secale cereale L.) 5R chromosome contains some elite genes that can be used to improve wheat cultivars. In this study, a set of 5RKu dissection lines was obtained, and 111 new PCR-based and 5RKu-specific markers were developed using the specific length amplified fragment sequencing (SLAF-seq) method. The 111 markers were combined with the 52 5RKu-specific markers previously reported, and 65 S. cereale Lo7 scaffolds were physically mapped to six regions of the 5RKu chromosome using the 5RKu dissection lines. Additionally, the 5RLKu arm carried stripe rust resistance gene(s) and it was located to the region L2, the same region where 22 5RKu-specific markers and 11 S. cereale Lo7 scaffolds were mapped. The stripe rust resistance gene(s) located in the 5RLKu arm might be new one(s) because its source and location are different from the previously reported ones, and it enriches the resistance source of stripe rust for wheat breeding programs. The markers and the S. cereale Lo7 scaffolds that were mapped to the six regions of the 5RKu chromosome can facilitate the utilization of elite genes on the 5R chromosome in the improvement of wheat cultivars.
Highlights
Rye (Secale cereale L.) is a useful gene source supporting disease and insect resistance, stress resistance, and higher yield for wheat (Triticum aestivum L.) breeding programs [1,2,3,4,5,6]
These results indicated that the chromosome carried stripe rust resistance gene(s) and itit was was
These results indicated that the 5R chromosome carried stripe rust resistance gene(s) and
Summary
Rye (Secale cereale L.) is a useful gene source supporting disease and insect resistance, stress resistance, and higher yield for wheat (Triticum aestivum L.) breeding programs [1,2,3,4,5,6]. Rye 5R chromosome contains some elite genes that can be used to improve wheat cultivars. Carries genes for stripe rust resistance, increasing spike length and reducing grain hardness [12]. The gene Ddw that can reduce plant height in rye is located on the 5RL arm and its close linkage markers have been found [13]. It was reported that the 5R chromosome harbors genes that determine its growth habit [14]. The elite genes on 5R chromosomes have not been successfully used in wheat cultivars because of linkage drag and the non-compensating and low recombination frequency of 5R with its wheat homologues [15,16]
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