Potential roles for pattern molecule of PAMP-triggered immunity in improving crop cold tolerance

Articles
November 24, 2021
Tuang Za Khai

Cellular viability assay on 2 dpi of 2 mg/L flg22 treated Arabidopsis plants (four weeks old) by trypan blue staining and ion leakage upon freezing stress. CK: non-infiltrated, Mock: infiltrated by water. a Cellular viability assay by trypan blue staining upon freezing (− 4 °C) stress at the indicated time, 22 °C (Control), − 4 °C (6 h), − 4 °C (8 h); b cellular viability assay by ion leakage assay upon freezing (− 4 °C) stress at the indicated time, 22 °C (Control), − 4 °C (6 h), − 4 °C (8 h). c, d Ratio of cold treatment value to control in a and b. The quantified values in a and b are the average ± SD from three biological repeats, and different lowercase letters, a–d, showed a significant difference (p

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Authors: Ye Jin, Za Khai Tuang, Yizhong Wang, Zhenjiang Wu, Wannian Yang;

Abstract

The application of flagellin 22 (flg22), the most widely studied PAMP, enhance crop cold tolerance. ICE1-CBF pathway and SA signaling is involved in the alleviation of cold injury by flg22 treatment. Pathogen infection cross-activates cold response and increase cold tolerance of host plants. However, it is not possible to use the infection to increase cold tolerance of field plants. Here flagellin 22 (flg22), the most widely studied PAMP (pathogen-associated molecular patterns), was used to mimic the pathogen infection to cross-activate cold response. Flg22 treatment alleviated the injury caused by freezing in Arabidopsis, oilseed and tobacco. In Arabidopsis, flg22 activated the expression of immunity and cold-related genes. Moreover, the flg22 induced alleviation of cold injury was lost in NahG transgenic line (SA-deficient), sid2-2 and npr1-1 mutant plants, and flg22-induced expression of cold tolerance-related genes, which indicating that salicylic acid signaling pathway is required for the alleviation of cold injury by flg22 treatment. In short flg22 application can be used to enhance cold tolerance in field via a salicylic acid-depended pathway.

Keywords: Cross-talk; Flagellin 22; Freezing tolerance; Salicylic acid.

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Tuang Za Khai

Zomi Researcher and Author

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Hebrew University of Jerusalem, Rehovot Campus

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