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Graph-based pangenomics maximizes genotyping density and reveals structural impacts on fungal resistance in melon

Author

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  • Justin N. Vaughn

    (The Agricultural Research Service of U.S. Department of Agriculture
    University of Georgia)

  • Sandra E. Branham

    (Clemson University)

  • Brian Abernathy

    (University of Georgia)

  • Amanda M. Hulse-Kemp

    (Genomics and Bioinformatics Research Unit, The Agricultural Research Service of U.S. Department of Agriculture
    North Carolina State University)

  • Adam R. Rivers

    (Genomics and Bioinformatics Research Unit, The Agricultural Research Service of U.S. Department of Agriculture)

  • Amnon Levi

    (US Vegetable Laboratory, The Agricultural Research Service of U.S. Department of Agriculture)

  • William P. Wechter

    (Clemson University
    US Vegetable Laboratory, The Agricultural Research Service of U.S. Department of Agriculture)

Abstract

The genomic sequences segregating in experimental populations are often highly divergent from the community reference and from one another. Such divergence is problematic under various short-read-based genotyping strategies. In addition, large structural differences are often invisible despite being strong candidates for causal variation. These issues are exacerbated in specialty crop breeding programs with fewer, lower-quality sequence resources. Here, we examine the benefits of complete genomic information, based on long-read assemblies, in a biparental mapping experiment segregating at numerous disease resistance loci in the non-model crop, melon (Cucumis melo). We find that a graph-based approach, which uses both parental genomes, results in 19% more variants callable across the population and raw allele calls with a 2 to 3-fold error-rate reduction, even relative to single reference approaches using a parent genome. We show that structural variation has played a substantial role in shaping two Fusarium wilt resistance loci with known causal genes. We also report on the genetics of powdery mildew resistance, where copy number variation and local recombination suppression are directly interpretable via parental genome alignments. Benefits observed, even in this low-resolution biparental experiment, will inevitably be amplified in more complex populations.

Suggested Citation

  • Justin N. Vaughn & Sandra E. Branham & Brian Abernathy & Amanda M. Hulse-Kemp & Adam R. Rivers & Amnon Levi & William P. Wechter, 2022. "Graph-based pangenomics maximizes genotyping density and reveals structural impacts on fungal resistance in melon," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-35621-7
    DOI: 10.1038/s41467-022-35621-7
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    References listed on IDEAS

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    1. Yao Zhou & Zhiyang Zhang & Zhigui Bao & Hongbo Li & Yaqing Lyu & Yanjun Zan & Yaoyao Wu & Lin Cheng & Yuhan Fang & Kun Wu & Jinzhe Zhang & Hongjun Lyu & Tao Lin & Qiang Gao & Surya Saha & Lukas Muelle, 2022. "Graph pangenome captures missing heritability and empowers tomato breeding," Nature, Nature, vol. 606(7914), pages 527-534, June.
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