4.7 Article

The Aegilops ventricosa 2NvS segment in bread wheat: cytology, genomics and breeding

Journal

THEORETICAL AND APPLIED GENETICS
Volume 134, Issue 2, Pages 529-542

Publisher

SPRINGER
DOI: 10.1007/s00122-020-03712-y

Keywords

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Funding

  1. National Science Foundation [1339389]
  2. Feed the Future through the US Agency for International Development [AID-OAA-A-13-00051]
  3. Kansas Agricultural Experiment Station [KS 66506-5502]

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This study provides the first cytological characterization of the 2N(v)S segment in hexaploid wheat, complete de novo assembly and annotation of the segment. The 2N(v)S segment is associated with resistance to multiple wheat diseases and has a positive impact on wheat grain yield, making it significant in wheat breeding.
Key message The first cytological characterization of the 2N(v)S segment in hexaploid wheat; complete de novo assembly and annotation of 2N(v)S segment; 2N(v)S frequency is increasing 2N(v)S and is associated with higher yield. The Aegilops ventricosa 2N(v)S translocation segment has been utilized in breeding disease-resistant wheat crops since the early 1990s. This segment is known to possess several important resistance genes against multiple wheat diseases including root knot nematode, stripe rust, leaf rust and stem rust. More recently, this segment has been associated with resistance to wheat blast, an emerging and devastating wheat disease in South America and Asia. To date, full characterization of the segment including its size, gene content and its association with grain yield is lacking. Here, we present a complete cytological and physical characterization of this agronomically important translocation in bread wheat. We de novo assembled the 2N(v)S segment in two wheat varieties, 'Jagger' and 'CDC Stanley,' and delineated the segment to be approximately 33 Mb. A total of 535 high-confidence genes were annotated within the 2N(v)S region, with > 10% belonging to the nucleotide-binding leucine-rich repeat (NLR) gene families. Identification of groups of NLR genes that are potentially N genome-specific and expressed in specific tissues can fast-track testing of candidate genes playing roles in various disease resistances. We also show the increasing frequency of 2N(v)S among spring and winter wheat breeding programs over two and a half decades, and the positive impact of 2N(v)S on wheat grain yield based on historical datasets. The significance of the 2N(v)S segment in wheat breeding due to resistance to multiple diseases and a positive impact on yield highlights the importance of understanding and characterizing the wheat pan-genome for better insights into molecular breeding for wheat improvement.

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