Wheat Pm4 resistance to powdery mildew is controlled by alternative splice variants encoding chimeric proteins

Crop breeding for resistance to pathogens largely relies on genes encoding receptors that confer race-specific immunity. Here, we report the identification of the wheat Pm4 race-specific resistance gene to powdery mildew. Pm4 encodes a putative chimeric protein of a serine/threonine kinase and multi...

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Veröffentlicht in:	Nature plants 2021-03, Vol.7 (3), p.327-341
Hauptverfasser:	Sánchez-Martín, Javier, Widrig, Victoria, Herren, Gerhard, Wicker, Thomas, Zbinden, Helen, Gronnier, Julien, Spörri, Laurin, Praz, Coraline R., Heuberger, Matthias, Kolodziej, Markus C., Isaksson, Jonatan, Steuernagel, Burkhard, Karafiátová, Miroslava, Doležel, Jaroslav, Zipfel, Cyril, Keller, Beat
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Schlagworte:	13 13/106 13/31 14 14/19 14/63 38 38/35 38/70 38/77 631/208/2491 631/449/1659 631/449/2169 631/449/2491 631/449/711 82 Airborne microorganisms Alternative Splicing Ascomycota - immunology Biomedical and Life Sciences Cloning, Molecular Disease Resistance - genetics Electrical resistivity Evolution, Molecular Gene Silencing Genes, Plant Isoforms Kinases Life Sciences Plant breeding Plant Diseases - genetics Plant Proteins - genetics Plant Proteins - physiology Plant Sciences Powdery mildew Protein Kinases - genetics Protein Kinases - physiology Protein-serine/threonine kinase Proteins Receptors Recombination, Genetic Splicing Topology Triticum - enzymology Triticum - genetics Triticum - microbiology Wheat
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creator	Sánchez-Martín, Javier Widrig, Victoria Herren, Gerhard Wicker, Thomas Zbinden, Helen Gronnier, Julien Spörri, Laurin Praz, Coraline R. Heuberger, Matthias Kolodziej, Markus C. Isaksson, Jonatan Steuernagel, Burkhard Karafiátová, Miroslava Doležel, Jaroslav Zipfel, Cyril Keller, Beat
description	Crop breeding for resistance to pathogens largely relies on genes encoding receptors that confer race-specific immunity. Here, we report the identification of the wheat Pm4 race-specific resistance gene to powdery mildew. Pm4 encodes a putative chimeric protein of a serine/threonine kinase and multiple C2 domains and transmembrane regions, a unique domain architecture among known resistance proteins. Pm4 undergoes constitutive alternative splicing, generating two isoforms with different protein domain topologies that are both essential for resistance function. Both isoforms interact and localize to the endoplasmatic reticulum when co-expressed. Pm4 reveals additional diversity of immune receptor architecture to be explored for breeding and suggests an endoplasmatic reticulum-based molecular mechanism of Pm4 -mediated race-specific resistance. The wheat Pm4 gene conferring race-specific powdery mildew resistance is identified to encode a chimeric kinase-MCTP protein. Its two alternative splice variants interact to form an ER-associated complex and are both essential for resistance function.
doi_str_mv	10.1038/s41477-021-00869-2
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Plants</addtitle><addtitle>Nat Plants</addtitle><description>Crop breeding for resistance to pathogens largely relies on genes encoding receptors that confer race-specific immunity. Here, we report the identification of the wheat Pm4 race-specific resistance gene to powdery mildew. Pm4 encodes a putative chimeric protein of a serine/threonine kinase and multiple C2 domains and transmembrane regions, a unique domain architecture among known resistance proteins. Pm4 undergoes constitutive alternative splicing, generating two isoforms with different protein domain topologies that are both essential for resistance function. Both isoforms interact and localize to the endoplasmatic reticulum when co-expressed. Pm4 reveals additional diversity of immune receptor architecture to be explored for breeding and suggests an endoplasmatic reticulum-based molecular mechanism of Pm4 -mediated race-specific resistance. 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title	Wheat Pm4 resistance to powdery mildew is controlled by alternative splice variants encoding chimeric proteins
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