Ss4368: Pathogen-Associated Molecular Pattern for Inducing Plant Cell Death and Resistance to Phytophthora capsici

Plant recognition of pathogen-associated molecular patterns (PAMPs) is pivotal in triggering immune responses, highlighting their potential as inducers of plant immunity. However, the number of PAMPs identified and applied in such contexts remains limited. In this study, we characterize a novel PAMP...

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Bibliographic Details
Published in:International journal of molecular sciences 2024-08, Vol.25 (16), p.8674
Main Authors: He, Ziwen, Peng, Shufang, Yin, Qingqing, Huang, Yuanyuan, Deng, Ting, Luo, Yiwei, He, Ningjia
Format: Article
Language:English
Subjects:
Agricultural production
Amino acids
Bacteria
Cell Death
Disease Resistance - genetics
Fungal Proteins - genetics
Fungal Proteins - metabolism
Fungi
Gene Expression Regulation, Plant
Kinases
Nicotiana - genetics
Nicotiana - microbiology
Nicotiana benthamiana
pathogen-associated molecular pattern (PAMP)
Pathogen-Associated Molecular Pattern Molecules - metabolism
Pathogens
Peptides
Phytophthora - pathogenicity
Plant Cells - metabolism
Plant Cells - microbiology
Plant Diseases - genetics
Plant Diseases - microbiology
plant immune inducer
Plant Immunity
Plant Proteins - genetics
Plant Proteins - metabolism
Proteins
Scleromitrula shiraiana
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Summary:Plant recognition of pathogen-associated molecular patterns (PAMPs) is pivotal in triggering immune responses, highlighting their potential as inducers of plant immunity. However, the number of PAMPs identified and applied in such contexts remains limited. In this study, we characterize a novel PAMP, designated Ss4368, which is derived from . Ss4368 is specifically distributed among a few fungal genera, including , , and . The transient expression of Ss4368 elicits cell death in a range of plant species. The signaling peptides, three conserved motifs, and cysteine residues (C46, C88, C112, C130, and C148) within Ss4368 are crucial for inducing robust cell death. Additionally, these signaling peptides are essential for the protein's localization to the apoplast. The cell death induced by Ss4368 and its homologous protein, Bc4368, is independent of the SUPPRESSOR OF BIR1-1 (SOBIR1), BRI1-ASSOCIATED KINASE-1 (BAK1), and salicylic acid (SA) pathways. Furthermore, the immune responses triggered by Ss4368 and Bc4368 significantly enhance the resistance of to . Therefore, we propose that Ss4368, as a novel PAMP, holds the potential for developing strategies to enhance plant resistance against .
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms25168674