Litcius/Paper detail

Arabidopsis BRCA1 represses RRTF1‐mediated ROS production and ROS‐responsive gene expression under dehydration stress

Jie Wang, Nan Nan, Lulu Shi, Ning Li, Shuangzhan Huang, Ai Zhang, Yutong Liu, Peng Guo, Liu B, Zheng‐Yi Xu

2020New Phytologist33 citationsDOI

Abstract

Reactive oxygen species (ROS) act as important secondary messengers in abscisic acid (ABA) signaling and induce stomatal closure under dehydration stress. The breast cancer susceptibility gene 1 (BRCA1), an important tumor suppressor in animals, functions primarily in the maintenance of genome integrity in animals and plants. However, whether and how the plant BRCA1 regulates intracellular ROS homeostasis in guard cells under dehydration stress remains unknown. Here, we found that Arabidopsis atbrca1 loss-of-function mutants showed dehydration stress tolerance. This stress tolerant phenotype of atbrca1 was a result of ABA- and ROS-induced stomatal closure, which was enhanced in atbrca1 mutants compared with the wild-type. AtBRCA1 downregulated the expression of ROS-responsive and marker genes. Notably, these genes were also the targets of the AP2/ERF transcriptional activator RRTF1/ERF109. Under normal conditions, AtBRCA1 physically interacted with RRTF1 and inhibited its binding to the GCC-box-like sequence in target gene promoters. Under dehydration stress, the expression of AtBRCA1 was dramatically reduced and that of RRTF1 was activated, thus inducing the expression of ROS-responsive genes. Overall, our study reveals a novel molecular function of AtBRCA1 in the transcriptional regulation of intracellular ROS homeostasis under dehydration stress.

Topics & Concepts

ArabidopsisAbscisic acidReactive oxygen speciesBiologyCell biologyGuard cellMutantGeneGene expressionIntracellularRegulation of gene expressionPromoterArabidopsis thalianaTranscriptional regulationActivator (genetics)BiochemistryPlant Stress Responses and TolerancePlant Molecular Biology ResearchPlant-Microbe Interactions and Immunity
Arabidopsis BRCA1 represses RRTF1‐mediated ROS production and ROS‐responsive gene expression under dehydration stress | Litcius