Abstract
BackgroundThe plant immune system is innate and encoded in the germline. Using it efficiently, plants are capable of recognizing a diverse range of rapidly evolving pathogens. A recently described phenomenon shows that plant immune receptors are able to recognize pathogen effectors through the acquisition of exogenous protein domains from other plant genes.ResultsWe show that plant immune receptors with integrated domains are distributed unevenly across their phylogeny in grasses. Using phylogenetic analysis, we uncover a major integration clade, whose members underwent repeated independent integration events producing diverse fusions. This clade is ancestral in grasses with members often found on syntenic chromosomes. Analyses of these fusion events reveals that homologous receptors can be fused to diverse domains. Furthermore, we discover a 43 amino acid long motif associated with this dominant integration clade which is located immediately upstream of the fusion site. Sequence analysis reveals that DNA transposition and/or ectopic recombination are the most likely mechanisms of formation for nucleotide binding leucine rich repeat proteins with integrated domains.ConclusionsThe identification of this subclass of plant immune receptors that is naturally adapted to new domain integration will inform biotechnological approaches for generating synthetic receptors with novel pathogen “baits.”
Highlights
The plant immune system is innate and encoded in the germline
We examined the evolution of Nucleotide binding leucine rich repeat (NLR) and NLRs with integrated domains (NLR-IDs) across nine grass species with available genomes: Setaria italica; Sorghum bicolor; Z. mays; B. distachyon; O. sativa; Hordeum vulgare; Aegilops tauschii; Triticum urartu, and Triticum aestivum
We have investigated the formation of NLR-IDs in grasses and demonstrated that while many NLR clades are capable of new domain integrations, the distribution of NLR-IDs is uneven across the NLR phylogeny
Summary
The plant immune system is innate and encoded in the germline. Using it efficiently, plants are capable of recognizing a diverse range of rapidly evolving pathogens. A recently described phenomenon shows that plant immune receptors are able to recognize pathogen effectors through the acquisition of exogenous protein domains from other plant genes. Nucleotide binding leucine rich repeat (NLR) proteins represent one of the major classes of plant immune receptors. NLRs provide plants with sufficient diversity to maintain immunity to rapidly evolving pathogens [3, 4]. Recent findings show that novel pathogen recognition specificities can be acquired through the fusion of non-canonical domains to NLRs [5,6,7] and that such fusions are widespread across flowering plants [8, 9].
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