Induction of plant disease resistance by mixed oligosaccharide elicitors prepared from plant cell wall and crustacean shells

Author:

Pring Sreynich1,Kato Hiroaki2,Imano Sayaka1,Camagna Maurizio1,Tanaka Aiko1,Kimoto Hisashi3,Chen Pengru4,Shrotri Abhijit4,Kobayashi Hirokazu5,Fukuoka Atsushi4,Saito Makoto6,Suzuki Takamasa7,Terauchi Ryohei2,Sato Ikuo1,Chiba Sotaro1,Takemoto Daigo1ORCID

Affiliation:

1. Graduate School of Bioagricultural Sciences Nagoya University Nagoya Japan

2. Graduate School of Agriculture Kyoto University Kyoto Japan

3. Graduate School of Bioscience and Biotechnology Fukui Prefectural University Awara Japan

4. Institute for Catalysis Hokkaido University Sapporo Japan

5. Komaba Institute for Science The University of Tokyo Tokyo Japan

6. Resonac Corporation (Showa Denko K.K.) Tokyo Japan

7. College of Bioscience and Biotechnology Chubu University Kasugai Japan

Abstract

AbstractBasal plant immune responses are activated by the recognition of conserved microbe‐associated molecular patterns (MAMPs), or breakdown molecules released from the plants after damage by pathogen penetration, so‐called damage‐associated molecular patterns (DAMPs). While chitin‐oligosaccharide (CHOS), a primary component of fungal cell walls, is most known as MAMP, plant cell wall‐derived oligosaccharides, cello‐oligosaccharides (COS) from cellulose, and xylo‐oligosaccharide (XOS) from hemicellulose are representative DAMPs. In this study, elicitor activities of COS prepared from cotton linters, XOS prepared from corn cobs, and chitin‐oligosaccharide (CHOS) from crustacean shells were comparatively investigated. In Arabidopsis, COS, XOS, or CHOS treatment triggered typical defense responses such as reactive oxygen species (ROS) production, phosphorylation of MAP kinases, callose deposition, and activation of the defense‐related transcription factor WRKY33 promoter. When COS, XOS, and CHOS were used at concentrations with similar activity in inducing ROS production and callose depositions, CHOS was particularly potent in activating the MAPK kinases and WRKY33 promoters. Among the COS and XOS with different degrees of polymerization, cellotriose and xylotetraose showed the highest activity for the activation of WRKY33 promoter. Gene ontology enrichment analysis of RNAseq data revealed that simultaneous treatment of COS, XOS, and CHOS (oligo‐mix) effectively activates plant disease resistance. In practice, treatment with the oligo‐mix enhanced the resistance of tomato to powdery mildew, but plant growth was not inhibited but rather tended to be promoted, providing evidence that treatment with the oligo‐mix has beneficial effects on improving disease resistance in plants, making them a promising class of compounds for practical application.

Funder

Japan Society for the Promotion of Science

Publisher

Wiley

Subject

Cell Biology,Plant Science,Genetics,General Medicine,Physiology

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