Linda Lüthi scite author profile

Wall-associated kinases (WAKs) have recently been identified as major components of fungal and bacterial disease resistance in several cereal crop species. However, the molecular mechanisms of WAK-mediated resistance remain largely unknown. Here, we investigated the function of the maize gene ZmWAK-RLK1 (Htn1) that confers quantitative resistance to northern corn leaf blight (NCLB) caused by the hemibiotrophic fungal pathogen Exserohilum turcicum. ZmWAK-RLK1 was found to localize to the plasma membrane and its presence resulted in a modification of the infection process by reducing pathogen penetration into host tissues. A large-scale transcriptome analysis of near-isogenic lines (NILs) differing for ZmWAK-RLK1 revealed that several differentially expressed genes are involved in the biosynthesis of the secondary metabolites benzoxazinoids (BXs). The contents of several BXs including DIM BOA-Glc were significantly lower when ZmWAK-RLK1 is present. DIM BOA-Glc concentration was significantly elevated in ZmWAK-RLK1 mutants with compromised NCLB resistance. Maize mutants that were affected in overall BXs biosynthesis or content of DIM BOA-Glc showed increased NCLB resistance. We conclude that Htn1-mediated NCLB resistance is associated with a reduction of BX secondary metabolites. These findings suggest a link between WAK-mediated quantitative disease resistance and changes in biochemical fluxes starting with indole-3-glycerol phosphate.

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Characterization of Lr75: a partial, broad-spectrum leaf rust resistance gene in wheat

Singla

Lüthi

Wicker

et al. 2016

Theor Appl Genet

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Distinct domains of the AVRPM3^A2/F2 avirulence protein from wheat powdery mildew are involved in immune receptor recognition and putative effector function

et al. 2018

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Summary Recognition of the AVRPM3A2/F2 avirulence protein from powdery mildew by the wheat PM3A/F immune receptor induces a hypersensitive response after co‐expression in Nicotiana benthamiana. The molecular determinants of this interaction and how they shape natural AvrPm3 a2/f2 allelic diversity are unknown.We sequenced the AvrPm3 a2/f2 gene in a worldwide collection of 272 mildew isolates. Using the natural polymorphisms of AvrPm3 a2/f2 as well as sequence information from related gene family members, we tested 85 single‐residue‐altered AVRPM3A2/F2 variants with PM3A, PM3F and PM3FL 456P/Y458H (modified for improved signaling) in Nicotiana benthamiana for effects on recognition.An intact AvrPm3 a2/f2 gene was found in all analyzed isolates and the protein variant recognized by PM3A/F occurred globally at high frequencies. Single‐residue alterations in AVRPM3A2/F2 mostly disrupted, but occasionally enhanced, the recognition response by PM3A, PM3F and PM3FL 456P/Y458H. Residues enhancing hypersensitive responses constituted a protein domain separate from both naturally occurring polymorphisms and positively selected residues of the gene family.These results demonstrate the utility of using gene family sequence diversity to screen residues for their role in recognition. This approach identified a putative interaction surface in AVRPM3A2/F2 not polymorphic in natural alleles. We conclude that molecular mechanisms besides recognition drive AvrPm3 a2/f2 diversification.

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Linda Lüthi

Fungal resistance mediated by maize wall‐associated kinase ZmWAK‐RLK1 correlates with reduced benzoxazinoid content

Characterization of Lr75: a partial, broad-spectrum leaf rust resistance gene in wheat

Distinct domains of the AVRPM3^A2/F2 avirulence protein from wheat powdery mildew are involved in immune receptor recognition and putative effector function

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Linda Lüthi

Fungal resistance mediated by maize wall‐associated kinase ZmWAK‐RLK1 correlates with reduced benzoxazinoid content

Characterization of Lr75: a partial, broad-spectrum leaf rust resistance gene in wheat

Distinct domains of the AVRPM3A2/F2 avirulence protein from wheat powdery mildew are involved in immune receptor recognition and putative effector function

Contact Info

Product

Resources

About

Distinct domains of the AVRPM3^A2/F2 avirulence protein from wheat powdery mildew are involved in immune receptor recognition and putative effector function