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Molecular mapping and characterization of QBp.caas-3BL for black point resistance in wheat (Triticum aestivum L.).

Cuihe LiuJie SongSiyang LiuJingdong LiuDengan XuXiuling TianYingjie BianYachao DongFengju WangRongge WangZhonghu HeXianchun XiaShuanghe Cao
Published in: TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik (2021)
We fine-mapped QBp.caas-3BL for black point resistance in an interval of 1.7 Mb containing five high-confidence annotated genes and developed a KASP marker suitable for selection of QBp.caas-3BL. Wheat black point, which occurs in most wheat-growing regions of the world, is detrimental to grain appearance, processing and nutrient quality. Mining and characterization of genetic loci for black point resistance are helpful for breeding resistant wheat cultivars. We previously identified a major QTL QBp.caas-3BL in a recombinant inbred line (RIL) population of Linmai 2/Zhong 892 across five environments. Here we confirmed the QTL in two additional environments. The genetic region of QBp.caas-3BL was enriched with newly developed markers. Using four sets of near isogenic lines, QBp.caas-3BL was narrowed down to a physical interval of approximately 1.7 Mb, including five annotated genes according to IWGSC reference genome. TraesCS3B02G404300, TraesCS3B02G404600 and TraesCS3B02G404700 were predicted as candidate genes based on the analyses of sequence polymorphisms and differential expression. We also converted a SNP of TraesCS3B02G404700 into a breeding-applicable KASP marker and verified its efficacy for marker-assisted breeding in a panel of germplasm. The findings not only lay a foundation for map-based cloning of QBp.caas-3BL but also provide a useful marker for selection of resistant cultivars genotypes in wheat breeding.
Keyphrases
  • genome wide
  • high density
  • dna methylation
  • physical activity
  • gene expression
  • copy number
  • high resolution
  • genome wide identification
  • transcription factor