Bethany Clark scite author profile

Summary Leaf rust, caused by Puccinia hordei, is a devastating fungal disease affecting barley (Hordeum vulgare subsp. vulgare) production globally. Despite the effectiveness of genetic resistance, the deployment of single genes often compromises durability due to the emergence of virulent P. hordei races, prompting the search for new sources of resistance. Here we report on the cloning of Rph15, a resistance gene derived from barley’s wild progenitor H. vulgare subsp. spontaneum. We demonstrate using introgression mapping, mutation and complementation that the Rph15 gene from the near‐isogenic line (NIL) Bowman + Rph15 (referred to as BW719) encodes a coiled‐coil nucleotide‐binding leucine‐rich repeat (NLR) protein with an integrated Zinc finger BED (ZF‐BED) domain. A predicted KASP marker was developed and validated across a collection of Australian cultivars and a series of introgression lines in the Bowman background known to carry the Rph15 resistance. Rph16 from HS‐680, another wild barley derived leaf rust resistance gene, was previously mapped to the same genomic region on chromosome 2H and was assumed to be allelic with Rph15 based on genetic studies. Both sequence analysis, race specificity and the identification of a knockout mutant in the HS‐680 background suggest that Rph15‐ and Rph16‐mediated resistances are in fact the same and not allelic as previously thought. The cloning of Rph15 now permits efficient gene deployment and the production of resistance gene cassettes for sustained leaf rust control.

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Ancient BED-domain-containing immune receptor from wild barley confers widely effective resistance to leaf rust

Chen

Clark

Martin

et al. 2020

Preprint

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Leaf rust, caused by Puccinia hordei is a devastating fungal disease affecting barley (Hordeum vulgare subsp. vulgare) production globally. Race-specific resistance (R) genes have been deployed widely; however, their durability is often compromised due to the rapid emergence of virulent P. hordei races, prompting the search for new sources of broad-spectrum resistance. Here we report on the cloning of Rph15, a broadly effective resistance gene derived from the wild progenitor Hordeum vulgare subsp. spontaneum. We demonstrate using introgression mapping, mutation and complementation that Rph15 encodes a coiled-coil nucleotide-binding leucine-rich repeat (NLR) protein with an integrated Zinc-finger BED (ZF-BED) domain. The allelic variation at the Rph15 locus was assessed using barley exome capture data that traced its origin to the western region of the Fertile Crescent bordering Jordan and Israel. To unravel the genetic relationship of two other leaf rust resistance genes (Rph14 and Rph16) mapped at similar locus on chromosome 2H, we re-sequenced the Rph15 gene from the near-isogenic line for Rph15 (Bowman+Rph15) and the two donor accessions of Rph14 (PI 584760) and Rph16, (PI 405292, Hs 680). Both whole genome and Sanger sequencing confirmed that Hs 680 carried Rph15, while Rph14 in PI 584760 was an independent locus. A perfect diagnostic KASP marker was developed and validated to permit efficient introduction of Rph15 into cultivated barley.

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A BamHI polymorphism at the fibrillin (FBN) locus

Clark¹,

Maslen²,

Sakai

et al. 1991

Nucl Acids Res

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Bethany Clark

The Coiled-Coil NLR Rph1, Confers Leaf Rust Resistance in Barley Cultivar Sudan

BED domain‐containing NLR from wild barley confers resistance to leaf rust

Ancient BED-domain-containing immune receptor from wild barley confers widely effective resistance to leaf rust

A BamHI polymorphism at the fibrillin (FBN) locus

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