Genome-Wide Identification of WRKY Gene Family and Expression Analysis under Abiotic Stress in Barley

Junjun Zheng,Chunyu Niu,Yunxia Fang,Ziling Zhang,Xian Zhang,Xiaoqin Zhang,Jia Li,Yuhuan Wu,Tao Tong,Dawei Xue

doi:10.3390/agronomy11030521

Abstract

The WRKY gene family consists of transcription factors that are widely distributed in plants and play a key role in plant growth and development, secondary metabolite synthesis, biotic and abiotic stress responses, and other biological processes. In this study, 86 WRKY proteins were identified from the barley genome database using bioinformatics and were found to be distributed unevenly on seven chromosomes. According to the structure and phylogenetic relationships, the proteins could be classified into three groups and seven subgroups. The multiple sequence alignment results showed that WRKY domains had different conserved sites in different groups or subgroups, and some members had a special heptapeptide motif. Protein and gene structure analysis indicated that there were significant differences between the groups in terms of the distribution of WRKY motifs and the number of introns in barley. Tissue expression pattern analysis demonstrated that the transcription levels of most genes exhibited tissue and growth-stage specificity. In addition, the analysis of cis-elements in the promoter region revealed that almost all HvWRKYs had plant hormone or stress response cis-elements, and there were differences in the numbers between groups. Finally, the transcriptional levels of 15 HvWRKY genes under drought, cadmium, or salt stress were analyzed by quantitative real-time PCR. It was found that most of the gene expression levels responded to one or more abiotic stresses. These results provide a foundation for further analysis of the function of WRKY gene family members in abiotic stress.

Highlights

The WRKY proteins belong to a class of transcription factors that contain special domains
We identified 86 candidate genes containing the WRKY domain by genome-wide analysis and named them HvWRKY1 to HvWRKY86 according to their location on the barley chromosome
WRKY family members of rice, Brachypodium distachyon, barley, and Arabidopsis thaliana showed different number of collinear gene pairs. These 86 proteins could be divided into three groups or seven subgroups according to their structure and phylogenetic relationship, the motif distribution showed obvious group differences, and the sequence differences of WRKY domain matched our classification

Summary

Introduction

The WRKY proteins belong to a class of transcription factors that contain special domains. They are called WRKY proteins due to their conserved WRKYGQK amino acid core sequences in the N-terminal of their characteristic domains [1]. They all regulate gene transcription by binding to the conserved W-box in the promoter region of the target gene. WRKY proteins can be divided into three groups based on their sequence characteristics: group I contains two WRKY domains, and group II and group III both contain one WRKY domain. Group II proteins can be further divided into five subgroups: II a, II b, II c, II d, and II e [1]

Methods

Results

Conclusion