An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species

The molecular codes underpinning the functions of plant NLR immune receptors are poorly understood. We used in vitro Mu transposition to generate a random truncation library and identify the minimal functional region of NLRs. We applied this method to NRC4—a helper NLR that functions with multiple s...

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Autores principales: Adachi, Hiroaki, Contreras, Mauricio P, Harant, Adeline, Wu, Chih-hang, Derevnina, Lida, Sakai, Toshiyuki, Duggan, Cian, Moratto, Eleonora, Bozkurt, Tolga O, Maqbool, Abbas, Win, Joe, Kamoun, Sophien
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2019
Materias:
Plant Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6944444/
https://www.ncbi.nlm.nih.gov/pubmed/31774397
http://dx.doi.org/10.7554/eLife.49956
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author Adachi, Hiroaki
Contreras, Mauricio P
Harant, Adeline
Wu, Chih-hang
Derevnina, Lida
Sakai, Toshiyuki
Duggan, Cian
Moratto, Eleonora
Bozkurt, Tolga O
Maqbool, Abbas
Win, Joe
Kamoun, Sophien
author_facet Adachi, Hiroaki
Contreras, Mauricio P
Harant, Adeline
Wu, Chih-hang
Derevnina, Lida
Sakai, Toshiyuki
Duggan, Cian
Moratto, Eleonora
Bozkurt, Tolga O
Maqbool, Abbas
Win, Joe
Kamoun, Sophien
author_sort Adachi, Hiroaki
collection PubMed
description The molecular codes underpinning the functions of plant NLR immune receptors are poorly understood. We used in vitro Mu transposition to generate a random truncation library and identify the minimal functional region of NLRs. We applied this method to NRC4—a helper NLR that functions with multiple sensor NLRs within a Solanaceae receptor network. This revealed that the NRC4 N-terminal 29 amino acids are sufficient to induce hypersensitive cell death. This region is defined by the consensus MADAxVSFxVxKLxxLLxxEx (MADA motif) that is conserved at the N-termini of NRC family proteins and ~20% of coiled-coil (CC)-type plant NLRs. The MADA motif matches the N-terminal α1 helix of Arabidopsis NLR protein ZAR1, which undergoes a conformational switch during resistosome activation. Immunoassays revealed that the MADA motif is functionally conserved across NLRs from distantly related plant species. NRC-dependent sensor NLRs lack MADA sequences indicating that this motif has degenerated in sensor NLRs over evolutionary time.
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spelling pubmed-69444442020-01-08 An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species Adachi, Hiroaki Contreras, Mauricio P Harant, Adeline Wu, Chih-hang Derevnina, Lida Sakai, Toshiyuki Duggan, Cian Moratto, Eleonora Bozkurt, Tolga O Maqbool, Abbas Win, Joe Kamoun, Sophien eLife Plant Biology The molecular codes underpinning the functions of plant NLR immune receptors are poorly understood. We used in vitro Mu transposition to generate a random truncation library and identify the minimal functional region of NLRs. We applied this method to NRC4—a helper NLR that functions with multiple sensor NLRs within a Solanaceae receptor network. This revealed that the NRC4 N-terminal 29 amino acids are sufficient to induce hypersensitive cell death. This region is defined by the consensus MADAxVSFxVxKLxxLLxxEx (MADA motif) that is conserved at the N-termini of NRC family proteins and ~20% of coiled-coil (CC)-type plant NLRs. The MADA motif matches the N-terminal α1 helix of Arabidopsis NLR protein ZAR1, which undergoes a conformational switch during resistosome activation. Immunoassays revealed that the MADA motif is functionally conserved across NLRs from distantly related plant species. NRC-dependent sensor NLRs lack MADA sequences indicating that this motif has degenerated in sensor NLRs over evolutionary time. eLife Sciences Publications, Ltd 2019-11-27 /pmc/articles/PMC6944444/ /pubmed/31774397 http://dx.doi.org/10.7554/eLife.49956 Text en © 2019, Adachi et al http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Plant Biology
Adachi, Hiroaki
Contreras, Mauricio P
Harant, Adeline
Wu, Chih-hang
Derevnina, Lida
Sakai, Toshiyuki
Duggan, Cian
Moratto, Eleonora
Bozkurt, Tolga O
Maqbool, Abbas
Win, Joe
Kamoun, Sophien
An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species
title An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species
title_full An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species
title_fullStr An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species
title_full_unstemmed An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species
title_short An N-terminal motif in NLR immune receptors is functionally conserved across distantly related plant species
title_sort n-terminal motif in nlr immune receptors is functionally conserved across distantly related plant species
topic Plant Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6944444/
https://www.ncbi.nlm.nih.gov/pubmed/31774397
http://dx.doi.org/10.7554/eLife.49956
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