Powdery mildew pathogens colonize over 9,500 plant species, causing critical yield loss. The Ascomycete fungus, Blumeria graminis f. sp. hordei (Bgh), causes powdery mildew disease in barley (Hordeum vulgare L.). Successful infection begins with penetration of host epidermal cells, culminating in haustorial feeding structures, facilitating delivery of fungal effectors to the plant and exchange of nutrients from host to pathogen. We used expression Quantitative Trait Locus (eQTL) analysis to dissect the temporal control of immunity-associated gene expression in a doubled haploid barley population challenged with Bgh. Two highly significant regions possessing trans eQTL were identified near the telomeric ends of chromosomes 2HL and 1HS. Within these regions reside diverse resistance loci derived from barley landrace, H. laevigatum (MlLa), and H. vulgare cv. Algerian (Mla1); which associate with the altered expression of 961 and 3,296 genes during fungal penetration of the host and haustorial development, respectively. Regulatory control of transcript levels for 299 of the 961 genes is re-prioritized from MlLa on 2HL to Mla1 on 1HS as infection progresses; with 292 of the 299 alternating the allele responsible for higher expression, including Adaptin Protein-2 subunit μ AP2M and Vesicle Associated Membrane Protein VAMP72 subfamily members VAMP721/722. AP2M mediates effector-triggered immunity via endocytosis of plasma membrane receptor components. VAMP721/722 and SNAP33 form a SNARE complex with SYP121 (PEN1), which is engaged in PAMP-triggered immunity via exocytosis. We postulate that genes regulated by alternate chromosomal positions are repurposed as part of conserved immune complex to respond to different pathogen attack scenarios.
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