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Genome-wide association mapping of tan spot resistance in a worldwide collection of durum wheat.

Nelomie GalagedaraYuan LiuJason FiedlerGongjun ShiShiaoman ChiaoSteven S XuJustin D FarisXuehui LiZhaohui Liu
Published in: TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik (2020)
Resistance to tan spot in durum wheat involves race-nonspecific QTL and necrotrophic insensitivity gene. Tan spot, caused by the necrotrophic fungus Pyrenophoratritici-repentis, is a major foliar disease on all cultivated wheat crops worldwide. Compared to common wheat, much less work has been done to investigate the genetic basis of tan spot resistance in durum. Here, we conducted disease evaluations, necrotrophic effector (NE) sensitivity assays and a genome-wide association study using a collection of durum accessions. The durum panel segregated for the reaction to disease inoculations and NE infiltrations with eighteen accessions being highly resistant to all races and most of them insensitive to both PtrToxA and PtrToxB. Over 65,000SNP markers were developed from genotyping-by-sequencing for the association mapping. As expected, sensitivity to PtrToxA and PtrToxB was mapped to the chromosome arms 5BL and 2BS, respectively. For the fungal inoculations, a quantitative trait locus (QTL) on chromosome 3B was associated with resistance to all races and likely corresponds to the race-nonspecific resistance QTL previously identified in common wheat. The Tsn1locus was not significantly associated with tan spot caused by the PtrToxA-producing isolates Pti2 and 86-124, but the Tsc2 locus was significantly associated with tan spot caused by the PtrToxB-producing isolate DW5. Another QTL on chromosome arm 1AS was associated with tan spot caused by the PtrToxC-producing isolate Pti2 and likely corresponds to the Tsc1 locus. Additional QTL for specific races was identified on chromosome 1B and 3B. Our work highlights the complexity of genetic resistance to tan spot and further confirms that the Ptr ToxA-Tsn1 interaction plays no significant role in disease development in tetraploid wheat.
Keyphrases
  • high density
  • genome wide
  • copy number
  • genome wide association
  • high resolution
  • high throughput
  • gene expression
  • immune response
  • dendritic cells
  • electron transfer