Lamin-like Proteins Negatively Regulate Plant Immunity through NAC WITH TRANSMEMBRANE MOTIF1-LIKE9 and NONEXPRESSOR OF PR GENES1 in Arabidopsis thaliana

Lamin-like Proteins Negatively Regulate Plant Immunity through NAC WITH TRANSMEMBRANE MOTIF1-LIKE9 and NONEXPRESSOR OF PR GENES1 in Arabidopsis thaliana

Nuclear lamins are involved in multiple biological processes in metazoan cells. The proteins of the CROWDED NUCLEI (CRWN) family are considered lamin-like candidates in Arabidopsis, although the functions of these proteins are largely unknown. In this article we show that crwn1 crwn2 double mutant d...

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Veröffentlicht in:Molecular plant 2017-10, Vol.10 (10), p.1334-1348
Hauptverfasser: Guo, Tongtong, Mao, Xuegao, Zhang, Hui, Zhang, Yu, Fu, Mengdi, Sun, Zhenfei, Kuai, Peng, Lou, Yonggen, Fang, Yuda
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Arabidopsis - genetics
Arabidopsis - immunology
Arabidopsis - microbiology
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
CRWN
Gene Expression Regulation, Plant
Gene Regulatory Networks
lamin
Lamins - chemistry
Lamins - physiology
Mutation
NPR1
NTL9
Nuclear Proteins - genetics
Nuclear Proteins - metabolism
Plant Diseases - immunology
Plant Diseases - microbiology
plant immunity
Proteasome Endopeptidase Complex - metabolism
Proteolysis
Pseudomonas syringae - physiology
Salicylic Acid - metabolism
Transcription Factors - metabolism
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container_end_page 1348
container_issue 10
container_start_page 1334
container_title Molecular plant
container_volume 10
creator Guo, Tongtong
Mao, Xuegao
Zhang, Hui
Zhang, Yu
Fu, Mengdi
Sun, Zhenfei
Kuai, Peng
Lou, Yonggen
Fang, Yuda
description Nuclear lamins are involved in multiple biological processes in metazoan cells. The proteins of the CROWDED NUCLEI (CRWN) family are considered lamin-like candidates in Arabidopsis, although the functions of these proteins are largely unknown. In this article we show that crwn1 crwn2 double mutant displays an enhanced resistance against virulent bacterial pathogens, and both virulent bacteria and salicylic acid (SA) induce transcription of CRWN1 gene as well as proteasome-mediated degradation of CRWN1 protein. We also show that CRWN1 interacts with NAC WITH TRANSMEMBRANE MOTIF1-LIKE9 (NTL9), a NAC transcription factor involved in plant immunity. The interaction between CRWN1 and NTL9 enhances the binding of NTL9 to the promoter of the PATHOGENESIS-RELATED1 (PR1) gene, and inhibits PR1 expression. Further genetic experiments indicated that the defense-related phenotypes of crwn1 crwn2 double mutant are dependent on NONEXPRESSOR OF PR GENES1 (NPR1), a transcriptional cofactor of PR1. These findings revealed a regulatory network composed of lamin-like protein CRWN1, NTL9, and NPR1 for the regulation of PR1 expression. Pathogens and salicylic acid induce the degradation of CRWN1 which interacts with NTL9 and SNI1 to repress PR1 transcription. Npr1 genetically suppresses the function of CRWN1. The complexes CRWN1/NTL9/SNI1 and NPR1 act antagonistically and dynamically to regulate the transcription of PR1 gene.
doi_str_mv 10.1016/j.molp.2017.09.008
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The proteins of the CROWDED NUCLEI (CRWN) family are considered lamin-like candidates in Arabidopsis, although the functions of these proteins are largely unknown. In this article we show that crwn1 crwn2 double mutant displays an enhanced resistance against virulent bacterial pathogens, and both virulent bacteria and salicylic acid (SA) induce transcription of CRWN1 gene as well as proteasome-mediated degradation of CRWN1 protein. We also show that CRWN1 interacts with NAC WITH TRANSMEMBRANE MOTIF1-LIKE9 (NTL9), a NAC transcription factor involved in plant immunity. The interaction between CRWN1 and NTL9 enhances the binding of NTL9 to the promoter of the PATHOGENESIS-RELATED1 (PR1) gene, and inhibits PR1 expression. Further genetic experiments indicated that the defense-related phenotypes of crwn1 crwn2 double mutant are dependent on NONEXPRESSOR OF PR GENES1 (NPR1), a transcriptional cofactor of PR1. 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The proteins of the CROWDED NUCLEI (CRWN) family are considered lamin-like candidates in Arabidopsis, although the functions of these proteins are largely unknown. In this article we show that crwn1 crwn2 double mutant displays an enhanced resistance against virulent bacterial pathogens, and both virulent bacteria and salicylic acid (SA) induce transcription of CRWN1 gene as well as proteasome-mediated degradation of CRWN1 protein. We also show that CRWN1 interacts with NAC WITH TRANSMEMBRANE MOTIF1-LIKE9 (NTL9), a NAC transcription factor involved in plant immunity. The interaction between CRWN1 and NTL9 enhances the binding of NTL9 to the promoter of the PATHOGENESIS-RELATED1 (PR1) gene, and inhibits PR1 expression. Further genetic experiments indicated that the defense-related phenotypes of crwn1 crwn2 double mutant are dependent on NONEXPRESSOR OF PR GENES1 (NPR1), a transcriptional cofactor of PR1. These findings revealed a regulatory network composed of lamin-like protein CRWN1, NTL9, and NPR1 for the regulation of PR1 expression. Pathogens and salicylic acid induce the degradation of CRWN1 which interacts with NTL9 and SNI1 to repress PR1 transcription. Npr1 genetically suppresses the function of CRWN1. The complexes CRWN1/NTL9/SNI1 and NPR1 act antagonistically and dynamically to regulate the transcription of PR1 gene.</abstract><cop>England</cop><pub>Elsevier Inc</pub><pmid>28943325</pmid><doi>10.1016/j.molp.2017.09.008</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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subjects Arabidopsis - genetics
Arabidopsis - immunology
Arabidopsis - microbiology
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
CRWN
Gene Expression Regulation, Plant
Gene Regulatory Networks
lamin
Lamins - chemistry
Lamins - physiology
Mutation
NPR1
NTL9
Nuclear Proteins - genetics
Nuclear Proteins - metabolism
Plant Diseases - immunology
Plant Diseases - microbiology
plant immunity
Proteasome Endopeptidase Complex - metabolism
Proteolysis
Pseudomonas syringae - physiology
Salicylic Acid - metabolism
Transcription Factors - metabolism
title Lamin-like Proteins Negatively Regulate Plant Immunity through NAC WITH TRANSMEMBRANE MOTIF1-LIKE9 and NONEXPRESSOR OF PR GENES1 in Arabidopsis thaliana
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