Identifing candidate genes corresponding to Yr6 in wheat stripe rust by resequencing a population acquired from selfing an isola

Gangming Zhan

State Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection, Northwest A&F University

Yuan Tian, Yan Meng, Hengbo Ma, Lili Huang, Zhensheng Kang


Stripe rust, caused by Puccinia striiformis Westend f.sp. tritici, is currently one of the most prevalent and damaging disease on wheat. Up to now, some genes in wheat which are resistant to wheat stripe rust have been cloned, but little is known about the corresponding avirulence gene according to the gene-for-gene hypothesis. A population containing 118 progeny isolates population acquired by selfing an isolate, PL17-7, with virulence to Yr26 was derived. Seventy-two progeny isolates were different in genotype depending on 92 simple sequence repeat (SSR) markers. The progeny population segregated for avirulence to Yr6 at one locus (3 avirulent :1 virulent ratio). The parental isolate and 72 of 118 progeny isolates were resequenced to find candidate avirulence genes corresponding to Yr6. Overall, 7.6 million reads per sample were obtained and mapped to the draft genome of a Chinese Pst isolate CY32. The median depth of coverage was 63.6 fold. For each isolate, between 97.6% and 98.1% of the sequence reads were mapped to the race CY32 genome, which covered between 87.3% and 95.4% of the reference genome bases. An average of 97357 single nucleotide polymorphisms (SNP) per isolate was found, which covered 8.1% of the reference genome. Different SNPs and Indels were found when isolates virulent and avirulent to wheat cultivar containing Yr6 were grouped into two groups. Though screening discrepant SNP and indel in these two groups, candidate avirulence genes corresponding to Yr6 may be found.