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Literature DB >> 34288868

Two NLR immune receptors acquired high-affinity binding to a fungal effector through convergent evolution of their integrated domain.

Aleksandra Białas¹, Thorsten Langner¹, Adeline Harant¹, Mauricio P Contreras¹, Clare Em Stevenson², David M Lawson², Jan Sklenar¹, Ronny Kellner¹, Matthew J Moscou¹, Ryohei Terauchi^3,4, Mark J Banfield², Sophien Kamoun¹.

Abstract

A subset of plant NLR immune receptors carry unconventional integrated domains in addition to their canonical domain architecture. One example is rice Pik-1 that comprises an integrated heavy metal-associated (HMA) domain. Here, we reconstructed the evolutionary history of Pik-1 and its NLR partner, Pik-2, and tested hypotheses about adaptive evolution of the HMA domain. Phylogenetic analyses revealed that the HMA domain integrated into Pik-1 before Oryzinae speciation over 15 million years ago and has been under diversifying selection. Ancestral sequence reconstruction coupled with functional studies showed that two Pik-1 allelic variants independently evolved from a weakly binding ancestral state to high-affinity binding of the blast fungus effector AVR-PikD. We conclude that for most of its evolutionary history the Pik-1 HMA domain did not sense AVR-PikD, and that different Pik-1 receptors have recently evolved through distinct biochemical paths to produce similar phenotypic outcomes. These findings highlight the dynamic nature of the evolutionary mechanisms underpinning NLR adaptation to plant pathogens.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: NLR; Poaceae; evolution; plant biology; plant defense; rice

Year: 2021 PMID： 34288868 PMCID： PMC8294853 DOI： 10.7554/eLife.66961

Source DB: PubMed Journal: Elife ISSN： 2050-084X Impact factor: 8.140

126 in total

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7. Gene Duplication and Mutation in the Emergence of a Novel Aggressive Allele of the AVR-Pik Effector in the Rice Blast Fungus.

Authors: Apinya Longya; Chaivarakun Chaipanya; Marina Franceschetti; Josephine H R Maidment; Mark J Banfield; Chatchawan Jantasuriyarat
Journal: Mol Plant Microbe Interact Date: 2019-05-01 Impact factor: 4.171

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5. A single amino acid polymorphism in a conserved effector of the multihost blast fungus pathogen expands host-target binding spectrum.

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