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Structural basis of NPR1 in activating plant immunity.

Publication ,  Journal Article
Kumar, S; Zavaliev, R; Wu, Q; Zhou, Y; Cheng, J; Dillard, L; Powers, J; Withers, J; Zhao, J; Guan, Z; Borgnia, MJ; Bartesaghi, A; Dong, X; Zhou, P
Published in: Nature
May 2022

NPR1 is a master regulator of the defence transcriptome induced by the plant immune signal salicylic acid1-4. Despite the important role of NPR1 in plant immunity5-7, understanding of its regulatory mechanisms has been hindered by a lack of structural information. Here we report cryo-electron microscopy and crystal structures of Arabidopsis NPR1 and its complex with the transcription factor TGA3. Cryo-electron microscopy analysis reveals that NPR1 is a bird-shaped homodimer comprising a central Broad-complex, Tramtrack and Bric-à-brac (BTB) domain, a BTB and carboxyterminal Kelch helix bundle, four ankyrin repeats and a disordered salicylic-acid-binding domain. Crystal structure analysis reveals a unique zinc-finger motif in BTB for interacting with ankyrin repeats and mediating NPR1 oligomerization. We found that, after stimulation, salicylic-acid-induced folding and docking of the salicylic-acid-binding domain onto ankyrin repeats is required for the transcriptional cofactor activity of NPR1, providing a structural explanation for a direct role of salicylic acid in regulating NPR1-dependent gene expression. Moreover, our structure of the TGA32-NPR12-TGA32 complex, DNA-binding assay and genetic data show that dimeric NPR1 activates transcription by bridging two fatty-acid-bound TGA3 dimers to form an enhanceosome. The stepwise assembly of the NPR1-TGA complex suggests possible hetero-oligomeric complex formation with other transcription factors, revealing how NPR1 reprograms the defence transcriptome.

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Published In

Nature

DOI

EISSN

1476-4687

Publication Date

May 2022

Volume

605

Issue

7910

Start / End Page

561 / 566

Location

England

Related Subject Headings

  • Transcription Factors
  • Salicylic Acid
  • Plant Proteins
  • Plant Immunity
  • General Science & Technology
  • Gene Expression Regulation, Plant
  • Gene Expression Profiling
  • Cryoelectron Microscopy
  • Basic-Leucine Zipper Transcription Factors
  • Arabidopsis Proteins
 

Citation

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Kumar, S., Zavaliev, R., Wu, Q., Zhou, Y., Cheng, J., Dillard, L., … Zhou, P. (2022). Structural basis of NPR1 in activating plant immunity. Nature, 605(7910), 561–566. https://doi.org/10.1038/s41586-022-04699-w
Kumar, Shivesh, Raul Zavaliev, Qinglin Wu, Ye Zhou, Jie Cheng, Lucas Dillard, Jordan Powers, et al. “Structural basis of NPR1 in activating plant immunity.Nature 605, no. 7910 (May 2022): 561–66. https://doi.org/10.1038/s41586-022-04699-w.
Kumar S, Zavaliev R, Wu Q, Zhou Y, Cheng J, Dillard L, et al. Structural basis of NPR1 in activating plant immunity. Nature. 2022 May;605(7910):561–6.
Kumar, Shivesh, et al. “Structural basis of NPR1 in activating plant immunity.Nature, vol. 605, no. 7910, May 2022, pp. 561–66. Pubmed, doi:10.1038/s41586-022-04699-w.
Kumar S, Zavaliev R, Wu Q, Zhou Y, Cheng J, Dillard L, Powers J, Withers J, Zhao J, Guan Z, Borgnia MJ, Bartesaghi A, Dong X, Zhou P. Structural basis of NPR1 in activating plant immunity. Nature. 2022 May;605(7910):561–566.
Journal cover image

Published In

Nature

DOI

EISSN

1476-4687

Publication Date

May 2022

Volume

605

Issue

7910

Start / End Page

561 / 566

Location

England

Related Subject Headings

  • Transcription Factors
  • Salicylic Acid
  • Plant Proteins
  • Plant Immunity
  • General Science & Technology
  • Gene Expression Regulation, Plant
  • Gene Expression Profiling
  • Cryoelectron Microscopy
  • Basic-Leucine Zipper Transcription Factors
  • Arabidopsis Proteins