Host-pathogen networks in an integrated barley-powdery mildew interactome

Authors: VELASQUEZ-ZAPATA, VALERIA - Iowa State University; Elmore, James - Mitch; PATEL, SHIVANSH - Iowa State University; SMITH, SCHUYLER - Iowa State University; Fuerst, Gregory; Wise, Roger

Submitted to: Plant and Animal Genome Conference Proceedings
Publication Type: Abstract Only
Publication Acceptance Date: 12/18/2023
Publication Date: 1/1/2024
Citation: Velasquez-Zapata, V., Elmore, J.M., Patel, S., Smith, S., Fuerst, G.S., Wise, R.P. 2024. Host-pathogen networks in an integrated barley-powdery mildew interactome. Plant and Animal Genome Conference Proceedings. https://pag.confex.com/pag/31/work/papers/viewonly.cgi?password=860965&username=54280. International Plant & Animal Genome / PAG 31 • January 12-17, 2024 • San Diego, CA, USA

Interpretive Summary:

Technical Abstract: Disease phenotypes are the result of dynamic changes in gene and protein interactions at multiple levels in multiple compartments. To establish a regulatory network view of protein-protein interactions critical to pathogen infection and disease resistance in cereal grains, we are constructing protein networks of barley (Hordeum vulgare L.) in response to powdery mildew, caused by the ascomycete fungus, Blumeria hordei (Bh). The barley MLA nucleotide binding, leucine-rich repeat (NLR) receptor was used as a model regulator to interrogate cereal immune response, as it’s alleles and orthologs confer recognition specificity to several diseases, including powdery mildew, stem rust, stripe rust and rice blast. Forty-seven representative Bh effector proteins, including AVRA1, AVRA7, AVRA9, and AVRA13, were selected from time-course RNA-sequencing on wild-type progenitor and immune mutant hosts, and used as baits in yeast-two hybrid next-generation interaction screens (Y2H-NGIS), followed by quantitation and ranking with NGPINT and Y2H-SCORES software, and subsequent binary confirmation. Results were integrated with the HvInt barley interactome, enabling assembly of a high-confidence host-pathogen network of 1085 proteins and 1497 interactions. The network includes known and novel signaling hubs to infer immune activation and effector mechanisms for next-generation breeding to new and emerging pathogens. Supported by Fulbright Colombia & Schlumberger Faculty for the Future Fellowship to VVZ, USDA-NIFA-ELI Postdoc Fellowship 2017-67012-26086 to JME, and USDA-NIFA-PBI 2020-67013-31184 & USDA-ARS 5030-21220-068-000-D to RPW.