Walnut JrGSTU23 and JrVHAc4 involve in drought tolerance via JrWRKY2-mediated upstream regulatory pathway

•Drought severely restricts the yield and quality of walnuts•The molecular mechanism of walnut drought response mediated by JrWRKY2, JrGSTU23 and JrVHAc4•JrWRKY2 can recognize JrGSTU23 and JrVHAc4 by binding to their promoter.•JrWRKY2, JrGSTU23 and JrVHAc4 co-related with ABA and MAPK signaling. Dro...

Full description

Saved in:
Bibliographic Details
Published in:Scientia horticulturae 2022-03, Vol.295, p.110871, Article 110871
Main Authors: Guiyan, Yang, Dapei, Li, Shaobing, Peng, Xiangqian, Gao, Shuwen, Chen, Tianyu, Wang, Liyuan, Su, Zhenggang, Xu, Meizhi, Zhai
Format: Article
Language:English
Subjects:
ABA signaling
Drought stress
Tau class GST
Transcriptional regulation
V-ATPase c subunit
WRKY pathway
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Drought severely restricts the yield and quality of walnuts•The molecular mechanism of walnut drought response mediated by JrWRKY2, JrGSTU23 and JrVHAc4•JrWRKY2 can recognize JrGSTU23 and JrVHAc4 by binding to their promoter.•JrWRKY2, JrGSTU23 and JrVHAc4 co-related with ABA and MAPK signaling. Drought stress negatively affects the walnut productivity. To ensure the comprehensive benefits of walnut, this study aims to explore the molecular mechanism of drought stress response. Therefore, the downstream target genes of JrWRKY2, a drought tolerance regulator of Juglans regia, are identified by analyses of promoter expression, yeast one-hybrid and co-expression. The results showed that JrWRKY2 could bind to the W-BOX like motifs from the promoters of JrGSTU23 (a tau class glutathione S-transferase) and JrVHAc4 (a c subunit of vacuole H+-ATPase). JrGSTU23 and JrVHAc4 could be up-regulated by drought stress and abscisic acid (ABA). The drought tolerance of transgenic Arabidopsis overexpression of JrGSTU23 or JrVHAc4 were promoted significantly compared to wild type (WT) plants; More importantly, the degree of improvement in drought resistance is enhanced by application of ABA. The transcription levels of the genes from signaling pathways of ABA and mitogen-activated protein kinases (MAPKs) in JrGSTU23 and JrVHAc4 overexpression plants were higher than those in WT with different profiles. These results propose a trifurcate feed-forward pathway involving in JrWRKY2, JrGSTU23, and JrVHAc4 functions on drought stress response that associated with ABA and MAPK signaling pathways, which will offer new insights to reveal plant adaptation mechanism to adverse stimulus.
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2021.110871