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Cytogenetic and Genomic Characterization of a Novel Wheat-Tetraploid Thinopyrum elongatum 1BS⋅1EL Translocation Line with Stripe Rust Resistance.

Dan-Dan WuXin ZhaoYangqiu XieLingyu LiYinghui LiWei ZhuLili XuYi WangJian ZengYiran ChengLina ShaXing FanHaigin ZhangYonghong ZhouHouyang Kang
Published in: Plant disease (2024)
Stripe rust, caused by Puccinia striiformis f. sp. tritici , is a destructive wheat disease pathogen. Thinopyrum elongatum is a valuable germplasm including diploid, tetraploid, and decaploid with plenty of biotic and abiotic resistance. In a previous study, we generated a stripe rust-resistant wheat-tetraploid Th. elongatum 1E/1D substitution line, K17-841-1. To further apply the wild germplasm for wheat breeding, we selected and obtained a new homozygous wheat-tetraploid Th. elongatum translocation line, T1BS⋅1EL, using genomic in situ hybridization, fluorescence in situ hybridization (FISH), oligo-FISH painting, and the wheat 55K single nucleotide polymorphism genotyping array. The T1BS⋅1EL is highly resistant to stripe rust at the seedling and adult stages. Pedigree and molecular marker analyses revealed that the resistance gene was located on the chromosome arm 1EL of tetraploid Th . elongatum, tentatively named Yr1EL . In addition, we developed and validated 32 simple sequence repeat markers and two kompetitive allele-specific PCR assays that were specific to the tetraploid Th. elongatum chromosome arm 1EL to facilitate marker-assisted selection for alien 1EL stripe rust resistance breeding. This will help us explore and locate the stripe rust resistance gene mapping on the 1E chromosome and deploy it in the wheat breeding program.
Keyphrases
  • copy number
  • genome wide
  • high throughput
  • gene expression
  • single molecule
  • high density
  • quality improvement
  • single cell
  • transcription factor
  • quantum dots
  • energy transfer
  • genome wide analysis