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A glycan receptor kinase facilitates intracellular accommodation of arbuscular mycorrhiza and symbiotic rhizobia in the legume Lotus japonicus

by Radutoiu, Simona , Blahovska, Zuzana , Thygesen, Mikkel B. , Aachmann, Finn L. , Madland, Eva , Reid, Dugald , Rübsam, Henriette , Hansen, Simon B. , Zuccaro, Alga , Wu, Shunliang , Vinther, Maria , Wawra, Stephan , Andersen, Kasper R. , Saake, Pia , Pedersen, Emil B. , Ronson, Clive W. , Gysel, Kira , Kelly, Simon , Sullivan, John T. , Azadi, Parastoo , Muszynski, Artur , Stougaard, Jens

in Accommodation / Affinity / Arbuscular mycorrhizas / Biology and Life Sciences / Cell receptors / Cell walls / Colonization / Crystal structure / Electrophoresis / Endophytes / Environmental aspects / Exopolysaccharides / Fungi / Gene Expression Regulation, Plant / Genomes / Genotype & phenotype / Glucans / Glucans - metabolism / Glycan / Infections / Intracellular / Kinases / Legumes / Ligands / Lotus (Legumes) / Lotus - genetics / Lotus - metabolism / Lotus - microbiology / Lotus japonicus / Microorganisms / Mutation / Mycorrhizae - genetics / Mycorrhizas / Nitrogen / Perceptions / Phosphotransferases / Phosphotransferases - metabolism / Physical Sciences / Physiological aspects / Plant Proteins - genetics / Plant Proteins - metabolism / Plant Roots - metabolism / Polysaccharides / Polysaccharides - metabolism / Receptors / Research and Analysis Methods / Rhizobium / Rhizobium - metabolism / Root Nodules, Plant - genetics / Root Nodules, Plant - metabolism / Root Nodules, Plant - microbiology / Signal transduction / Symbiosis / Symbiosis - genetics / Thermophoresis

2023

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A glycan receptor kinase facilitates intracellular accommodation of arbuscular mycorrhiza and symbiotic rhizobia in the legume Lotus japonicus

2023

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A glycan receptor kinase facilitates intracellular accommodation of arbuscular mycorrhiza and symbiotic rhizobia in the legume Lotus japonicus

2023

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Journal Article

A glycan receptor kinase facilitates intracellular accommodation of arbuscular mycorrhiza and symbiotic rhizobia in the legume Lotus japonicus

Radutoiu, Simona,

Blahovska, Zuzana,

Thygesen, Mikkel B.,

Aachmann, Finn L.,

Madland, Eva,

Reid, Dugald,

Rübsam, Henriette,

Hansen, Simon B.,

Zuccaro, Alga,

Wu, Shunliang,

Vinther, Maria,

Wawra, Stephan,

Andersen, Kasper R.,

Saake, Pia,

Pedersen, Emil B.,

Ronson, Clive W.,

Gysel, Kira,

Kelly, Simon,

Sullivan, John T.,

Azadi, Parastoo,

Muszynski, Artur,

Stougaard, Jens

2023

Overview

Receptors that distinguish the multitude of microbes surrounding plants in the environment enable dynamic responses to the biotic and abiotic conditions encountered. In this study, we identify and characterise a glycan receptor kinase, EPR3a, closely related to the exopolysaccharide receptor EPR3. Epr3a is up-regulated in roots colonised by arbuscular mycorrhizal (AM) fungi and is able to bind glucans with a branching pattern characteristic of surface-exposed fungal glucans. Expression studies with cellular resolution show localised activation of the Epr3a promoter in cortical root cells containing arbuscules. Fungal infection and intracellular arbuscule formation are reduced in epr3a mutants. In vitro , the EPR3a ectodomain binds cell wall glucans in affinity gel electrophoresis assays. In microscale thermophoresis (MST) assays, rhizobial exopolysaccharide binding is detected with affinities comparable to those observed for EPR3, and both EPR3a and EPR3 bind a well-defined β-1,3/β-1,6 decasaccharide derived from exopolysaccharides of endophytic and pathogenic fungi. Both EPR3a and EPR3 function in the intracellular accommodation of microbes. However, contrasting expression patterns and divergent ligand affinities result in distinct functions in AM colonisation and rhizobial infection in Lotus japonicus . The presence of Epr3a and Epr3 genes in both eudicot and monocot plant genomes suggest a conserved function of these receptor kinases in glycan perception.

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Publisher

Public Library of Science,Public Library of Science (PLoS)

Subject

Accommodation

/ Affinity

/ Arbuscular mycorrhizas

/ Biology and Life Sciences

/ Cell receptors

/ Cell walls

/ Colonization