CaWRKY40b in Pepper Acts as a Negative Regulator in Response to Ralstonia solanacearum by Directly Modulating Defense Genes Including CaWRKY40.

Muhammad Ifnan Khan,Feng Yang,Lei Shen,Cailing Liu,Ansar Hussain,Shuilin He,Ali Noman,Sheng Yang,Deyi Guan,Yangwen Zhang,Zhiqin Liu,Muhammad Furqan Ashraf,Xiaoqin Xia,Jiong Hu

doi:10.3390/ijms19051403

Abstract

WRKY transcription factors (TFs) have been implicated in plant growth, development, and in response to environmental cues; however, the function of the majority of pepper WRKY TFs remains unclear. In the present study, we functionally characterized CaWRKY40b, a homolog of AtWRKY40, in pepper immunity. Ralstonia solanacearum inoculation (RSI) in pepper plants resulted in downregulation of CaWRKY40b transcript, and green fluorescent protein (GFP)-tagged CaWRKY40b was localized to the nuclei when transiently overexpressed in the leaves of Nicotiana benthamiana. Virus-induced gene silencing (VIGS) of CaWRKY40b significantly decreased pepper’ susceptibility to RSI. Consistently, the transient over-expression of CaWRKY40b-SRDX (chimeric repressor version of CaWRKY40b) triggered cell death, as indicated by darker trypan blue and DAB staining. CaWRKY40b targets a number of immunity-associated genes, including CaWRKY40 JAR, RLK1, EIN3, FLS2, CNGIC8, CDPK13, and heat shock cognate protein 70 (HSC70), which were identified by ChIP-seq and confirmed using ChIP-real time PCR. Among these target genes, the negative regulator HSC70 was upregulated by transient overexpression of CaWRKY40b and downregulated by silencing of CaWRKY40b, whereas other positive regulators as well as two non-target genes, CaNPR1 and CaDEF1, were downregulated by the transient overexpression of CaWRKY40b and upregulated by CaWRKY40b silencing or transient overexpression of CaWRKY40b-SRDX. In addition, CaWRKY40b exhibited a positive feedback regulation at transcriptional level by directly targeting the promoter of itself. In conclusion, the findings of the present study suggest that CaWRKY40b acts as a negative regulator in pepper immunity against R. solanacearum by transcriptional modulation of a subset of immunity-associated genes; it also represses immunity in the absence of a pathogen, and derepresses immunity upon pathogen challenge.

Highlights

During the course of evolution, plants have developed a sophisticated defense mechanism for counteracting diverse pathogens
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Summary

Introduction

During the course of evolution, plants have developed a sophisticated defense mechanism for counteracting diverse pathogens. In addition to the physical barriers for damage prevention, plants possess two layers of inducible immunities termed as pathogen-associated molecular pattern (PAMP) triggered immunity (PTI) and effector triggered immunity (ETI). ETI in plants is triggered by the perception of strain-specific pathogen effectors that are delivered into host cells via intracellular R proteins, which are generally coupled with hypersensitive response (HR) cell death. A key step in both PTI and ETI is massive reprogramming that is mediated by various transcription factors (TFs) [10,11,12], which play vital roles in plant responses to the pathogen attack [13,14]. The roles of the majority of TFs in plant immunity and how these translate upstream stress signals into appropriate transcriptional outputs remain to be elucidated

Methods

Results

Conclusion