Abstract
Glycine-rich proteins (GRPs) have diverse amino acid sequences and are involved in a variety of biological processes. The role of GRPs in plant pathogenic fungi has not been reported. In this study, we identified and functionally characterized a novel gene named MoGRP1 in Magnaporthe oryzae, which encodes a protein that has an N-terminal RNA recognition motif (RRM) and a C-terminal glycine-rich domain with four Arg-Gly-Gly (RGG) repeats. Deletion of MoGRP1 resulted in dramatic reductions in fungal virulence, mycelial growth, and conidiation. The ΔMogrp1 mutants were also defective in cell wall integrity and in their responses to different stresses. MoGrp1 was localized to the nucleus and was co-immunoprecipitated with several components of the spliceosome, including subunits of the U1 snRNP and U2 snRNP complexes. Moreover, MoGrp1 exhibited binding affinity for poly(U). Importantly, MoGrp1 was responsible for the normal splicing of genes involved in infection-related morphogenesis. Domain deletion assays showed that both the RRM domain and its two adjacent RGG repeats were essential to the full function of MoGrp1. Notably, the nine amino acids between the first and the second RGG repeats were indispensable for nuclear localization and for the biological functions of MoGrp1. Taken together, our data suggest that MoGrp1 functions as a novel splicing factor with poly(U) binding activity to regulate fungal virulence, development, and stress responses in the rice blast fungus.
Highlights
Glycine-rich proteins (GRPs) are a class of proteins containing glycine-rich domains in their primary structures
MoGRP1 is indispensable for hyphal growth, stress responses, and conidiation In Magnaporthe oryzae, 65 genes were predicted to encode RNA recognition motif (RRM) proteins, which are thought to be involved in diverse cellular processes including DNA processing, mRNA processing, rRNA processing, RNA binding, and translation (Additional file 1: Table S1)
Our findings suggest that MoGrp1 might be an auxiliary component of the pre-spliceosome A complex, in which U1 snRNP binds to a 5′ splicing site (5’SS) and U2 snRNP binds to the branch-point sequence (Wahl et al 2009)
Summary
Glycine-rich proteins (GRPs) are a class of proteins containing glycine-rich domains in their primary structures. Class I–III GRPs have typical signal peptides at the N-terminus but carry different motifs in their glycine-rich domains. Members of Class I GRPs have trailing repetitive (Gly-Gly-X)n domains. Most of these GRPs, such as GRP1 in petunia, are regarded as structural proteins due to their localization to cell walls. Class II GRPs have a glycine-rich domain consisting of the repetitive (Gly-Gly-XXX-Gly-Gly)n motif and a (2019) 1:2 trailing cysteine-rich region at the C-terminus. Class III GRPs have the lowest glycine levels in comparison with GRPs of other classes This class is characterized by a repetitive (Gly-X-Gly-X)n motif and wide structural diversity and usually contains oleosin domains
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