Coordination Between Two Cis-elements of WRKY33, Bound by the Same Transcription Factor, Confers Humid Adaption in Arabidopsis Thaliana

Overview

Journal Plant Mol Biol

Date 2024 Mar 20

PMID 38503847

Authors

Bao Liu

Yudan Zheng

Shangling Lou

Meng Liu

Weiwei Wang

Xiaoqin Feng

Han Zhang

Yan Song

Huanhuan Liu

Affiliations

Soon will be listed here.

Abstract

To cope with flooding-induced hypoxia, plants have evolved different strategies. Molecular strategies, such as the N-degron pathway and transcriptional regulation, are known to be crucial for Arabidopsis thaliana's hypoxia response. Our study uncovered a novel molecular strategy that involves a single transcription factor interacting with two identical cis-elements, one located in the promoter region and the other within the intron. This unique double-element adjustment mechanism has seldom been reported in previous studies. In humid areas, WRKY70 plays a crucial role in A. thaliana's adaptation to submergence-induced hypoxia by binding to identical cis-elements in both the promoter and intron regions of WRKY33. This dual binding enhances WRKY33 expression and the activation of hypoxia-related genes. Conversely, in arid regions lacking the promoter cis-element, WRKY70 only binds to the intron cis-element, resulting in limited WRKY33 expression during submergence stress. The presence of a critical promoter cis-element in humid accessions, but not in dry accessions, indicates a coordinated regulation enabling A. thaliana to adapt and thrive in humid habitats.

Citing Articles

Geography, altitude, agriculture, and hypoxia.

Holdsworth M, Liu H, Castellana S, Abbas M, Liu J, Perata P Plant Physiol. 2024; 197(1).

PMID: 39365016 PMC: 11663495. DOI: 10.1093/plphys/kiae535.

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