The Lysin Motif Receptor-like Kinase (LysM-RLK) CERK1 Is a Major Chitin-binding Protein in Arabidopsis thaliana and Subject to Chitin-induced Phosphorylation

Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis, the lysin motif (LysM)-containing chitin elicitor receptor kinase 1 (CERK1) has been shown to be essential for perception of the fungal cell wal...

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Published inThe Journal of biological chemistry Vol. 285; no. 37; pp. 28902 - 28911
Main Authors Petutschnig, Elena K., Jones, Alexandra M.E., Serazetdinova, Liliya, Lipka, Ulrike, Lipka, Volker
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 10.09.2010
American Society for Biochemistry and Molecular Biology
Subjects
Arabidopsis - metabolism
Arabidopsis - microbiology
Arabidopsis Proteins
Cell Wall - metabolism
Chitin
Chitin - metabolism
Chitosan - metabolism
Fungi - metabolism
Innate Immunity
Pathogen-associated Molecular Pattern (PAMP)
Pattern Recognition Receptor
Phosphorylation
Plant
Plant Biology
Plant Diseases - microbiology
Protein Binding
Protein Phosphorylation
Protein Processing, Post-Translational
Protein Serine-Threonine Kinases
Protein Structure, Tertiary
Signal Transduction
Plant
Chitin
Protein Phosphorylation
Innate Immunity
Pathogen-associated Molecular Pattern (PAMP)
Pattern Recognition Receptor
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Abstract Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis, the lysin motif (LysM)-containing chitin elicitor receptor kinase 1 (CERK1) has been shown to be essential for perception of the fungal cell wall component chitin and for resistance to fungal pathogens. Recent in vitro studies with CERK1 protein expressed heterologously in yeast suggested direct chitin binding activity. Here we show in an affinity purification approach that CERK1 is a major chitin-binding protein of Arabidopsis cells, along with several known and putative chitinases. The ectodomain of CERK1 harbors three distinct LysM domains with potential ligand binding capacity. We demonstrate that the CERK1 ectodomain binds chitin and partially deacetylated chitosan directly without any requirement for interacting proteins and that all three LysM domains are necessary for chitin binding. Ligand-induced phosphorylation events are a general feature of animal and plant signal transduction pathways. Our studies show that chitin, chitin oligomers, and chitosan rapidly induce in vivo phosphorylation of CERK1 at multiple residues in the juxtamembrane and kinase domain. Functional analyses with a kinase dead variant provide evidence that kinase activity of CERK1 is required for its chitin-dependent in vivo phosphorylation, as well as for early defense responses and downstream signaling. Collectively, our data suggest that in Arabidopsis, CERK1 is a major chitin, chitosan, and chito-oligomer binding component and that chitin signaling depends on CERK1 post-translational modification and kinase activity.
AbstractList Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis, the lysin motif (LysM)-containing chitin elicitor receptor kinase 1 (CERK1) has been shown to be essential for perception of the fungal cell wall component chitin and for resistance to fungal pathogens. Recent in vitro studies with CERK1 protein expressed heterologously in yeast suggested direct chitin binding activity. Here we show in an affinity purification approach that CERK1 is a major chitin-binding protein of Arabidopsis cells, along with several known and putative chitinases. The ectodomain of CERK1 harbors three distinct LysM domains with potential ligand binding capacity. We demonstrate that the CERK1 ectodomain binds chitin and partially deacetylated chitosan directly without any requirement for interacting proteins and that all three LysM domains are necessary for chitin binding. Ligand-induced phosphorylation events are a general feature of animal and plant signal transduction pathways. Our studies show that chitin, chitin oligomers, and chitosan rapidly induce in vivo phosphorylation of CERK1 at multiple residues in the juxtamembrane and kinase domain. Functional analyses with a kinase dead variant provide evidence that kinase activity of CERK1 is required for its chitin-dependent in vivo phosphorylation, as well as for early defense responses and downstream signaling. Collectively, our data suggest that in Arabidopsis, CERK1 is a major chitin, chitosan, and chito-oligomer binding component and that chitin signaling depends on CERK1 post-translational modification and kinase activity.
Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis , the lysin motif (LysM)-containing chitin elicitor receptor kinase 1 (CERK1) has been shown to be essential for perception of the fungal cell wall component chitin and for resistance to fungal pathogens. Recent in vitro studies with CERK1 protein expressed heterologously in yeast suggested direct chitin binding activity. Here we show in an affinity purification approach that CERK1 is a major chitin-binding protein of Arabidopsis cells, along with several known and putative chitinases. The ectodomain of CERK1 harbors three distinct LysM domains with potential ligand binding capacity. We demonstrate that the CERK1 ectodomain binds chitin and partially deacetylated chitosan directly without any requirement for interacting proteins and that all three LysM domains are necessary for chitin binding. Ligand-induced phosphorylation events are a general feature of animal and plant signal transduction pathways. Our studies show that chitin, chitin oligomers, and chitosan rapidly induce in vivo phosphorylation of CERK1 at multiple residues in the juxtamembrane and kinase domain. Functional analyses with a kinase dead variant provide evidence that kinase activity of CERK1 is required for its chitin-dependent in vivo phosphorylation, as well as for early defense responses and downstream signaling. Collectively, our data suggest that in Arabidopsis , CERK1 is a major chitin, chitosan, and chito-oligomer binding component and that chitin signaling depends on CERK1 post-translational modification and kinase activity.
Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis, the lysin motif (LysM)-containing chitin elicitor receptor kinase 1 (CERK1) has been shown to be essential for perception of the fungal cell wall component chitin and for resistance to fungal pathogens. Recent in vitro studies with CERK1 protein expressed heterologously in yeast suggested direct chitin binding activity. Here we show in an affinity purification approach that CERK1 is a major chitin-binding protein of Arabidopsis cells, along with several known and putative chitinases. The ectodomain of CERK1 harbors three distinct LysM domains with potential ligand binding capacity. We demonstrate that the CERK1 ectodomain binds chitin and partially deacetylated chitosan directly without any requirement for interacting proteins and that all three LysM domains are necessary for chitin binding. Ligand-induced phosphorylation events are a general feature of animal and plant signal transduction pathways. Our studies show that chitin, chitin oligomers, and chitosan rapidly induce in vivo phosphorylation of CERK1 at multiple residues in the juxtamembrane and kinase domain. Functional analyses with a kinase dead variant provide evidence that kinase activity of CERK1 is required for its chitin-dependent in vivo phosphorylation, as well as for early defense responses and downstream signaling. Collectively, our data suggest that in Arabidopsis, CERK1 is a major chitin, chitosan, and chito-oligomer binding component and that chitin signaling depends on CERK1 post-translational modification and kinase activity.Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis, the lysin motif (LysM)-containing chitin elicitor receptor kinase 1 (CERK1) has been shown to be essential for perception of the fungal cell wall component chitin and for resistance to fungal pathogens. Recent in vitro studies with CERK1 protein expressed heterologously in yeast suggested direct chitin binding activity. Here we show in an affinity purification approach that CERK1 is a major chitin-binding protein of Arabidopsis cells, along with several known and putative chitinases. The ectodomain of CERK1 harbors three distinct LysM domains with potential ligand binding capacity. We demonstrate that the CERK1 ectodomain binds chitin and partially deacetylated chitosan directly without any requirement for interacting proteins and that all three LysM domains are necessary for chitin binding. Ligand-induced phosphorylation events are a general feature of animal and plant signal transduction pathways. Our studies show that chitin, chitin oligomers, and chitosan rapidly induce in vivo phosphorylation of CERK1 at multiple residues in the juxtamembrane and kinase domain. Functional analyses with a kinase dead variant provide evidence that kinase activity of CERK1 is required for its chitin-dependent in vivo phosphorylation, as well as for early defense responses and downstream signaling. Collectively, our data suggest that in Arabidopsis, CERK1 is a major chitin, chitosan, and chito-oligomer binding component and that chitin signaling depends on CERK1 post-translational modification and kinase activity.
Author Lipka, Ulrike
Petutschnig, Elena K.
Lipka, Volker
Jones, Alexandra M.E.
Serazetdinova, Liliya
Author_xml – sequence: 1
  givenname: Elena K.
  surname: Petutschnig
  fullname: Petutschnig, Elena K.
  organization: Department of Plant Cell Biology, Albrecht-von-Haller-Institute of Plant Sciences, Georg-August-University Goettingen, Untere Karspuele 2, D-37073 Goettingen, Germany
– sequence: 2
  givenname: Alexandra M.E.
  surname: Jones
  fullname: Jones, Alexandra M.E.
  organization: The Sainsbury Laboratory, Norwich Research Park, Colney, Norwich NR4 7UH, United Kingdom
– sequence: 3
  givenname: Liliya
  surname: Serazetdinova
  fullname: Serazetdinova, Liliya
  organization: The Sainsbury Laboratory, Norwich Research Park, Colney, Norwich NR4 7UH, United Kingdom
– sequence: 4
  givenname: Ulrike
  surname: Lipka
  fullname: Lipka, Ulrike
  organization: The Sainsbury Laboratory, Norwich Research Park, Colney, Norwich NR4 7UH, United Kingdom
– sequence: 5
  givenname: Volker
  surname: Lipka
  fullname: Lipka, Volker
  email: volker.lipka@biologie.uni-goettingen.de
  organization: Department of Plant Cell Biology, Albrecht-von-Haller-Institute of Plant Sciences, Georg-August-University Goettingen, Untere Karspuele 2, D-37073 Goettingen, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/20610395$$D View this record in MEDLINE/PubMed
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Keywords Plant
Chitin
Protein Phosphorylation
Innate Immunity
Pathogen-associated Molecular Pattern (PAMP)
Pattern Recognition Receptor
Language English
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Snippet Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis, the...
Plants detect potential pathogens by sensing microbe-associated molecular patterns via pattern recognition receptors. In the dicot model plant Arabidopsis ,...
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SourceType Open Access Repository
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StartPage 28902
SubjectTerms Arabidopsis - metabolism
Arabidopsis - microbiology
Arabidopsis Proteins
Cell Wall - metabolism
Chitin
Chitin - metabolism
Chitosan - metabolism
Fungi - metabolism
Innate Immunity
Pathogen-associated Molecular Pattern (PAMP)
Pattern Recognition Receptor
Phosphorylation
Plant
Plant Biology
Plant Diseases - microbiology
Protein Binding
Protein Phosphorylation
Protein Processing, Post-Translational
Protein Serine-Threonine Kinases
Protein Structure, Tertiary
Signal Transduction
Title The Lysin Motif Receptor-like Kinase (LysM-RLK) CERK1 Is a Major Chitin-binding Protein in Arabidopsis thaliana and Subject to Chitin-induced Phosphorylation
URI https://dx.doi.org/10.1074/jbc.M110.116657
https://www.ncbi.nlm.nih.gov/pubmed/20610395
https://www.proquest.com/docview/753996276
https://pubmed.ncbi.nlm.nih.gov/PMC2937917
Volume 285
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