Multifaceted regulatory functions of CsBPC2 in cucumber under salt stress conditions

黄瓜 生物 活性氧 非生物胁迫 突变体 生物化学 细胞生物学 流出 盐度 丙二醛 非生物成分 信号转导 脯氨酸 抗氧化剂 植物 基因 生态学 氨基酸
作者
Shuzhen Li,Mintao Sun,Miao Li,Qinghua Di,Lijun Lv,Xianchang Yu,Yan Yan,Chaoxing He,Jun Wang,Aokun Shi,Yansu Li
出处
期刊:Horticulture research [Nature Portfolio]
卷期号:10 (5) 被引量:15
标识
DOI:10.1093/hr/uhad051
摘要

Abstract BASIC PENTACYSTEINE (BPC) transcription factors are essential regulators of plant growth and development. However, BPC functions and the related molecular mechanisms during cucumber (Cucumis sativus L.) responses to abiotic stresses, especially salt stress, remain unknown. We previously determined that salt stress induces CsBPC expression in cucumber. In this study, Csbpc2 transgene-free cucumber plants were created using a CRISPR/Cas9-mediated editing system to explore CsBPC functions associated with the salt stress response. The Csbpc2 mutants had a hypersensitive phenotype, with increased leaf chlorosis, decreased biomass, and increased malondialdehyde and electrolytic leakage levels under salt stress conditions. Additionally, a mutated CsBPC2 resulted in decreased proline and soluble sugar contents and antioxidant enzyme activities, which led to the accumulation of hydrogen peroxide and superoxide radicals. Furthermore, the mutation to CsBPC2 inhibited salinity-induced PM-H+-ATPase and V-H+-ATPase activities, resulting in decreased Na+ efflux and increased K+ efflux. These findings suggest that CsBPC2 may mediate plant salt stress resistance through its effects on osmoregulation, reactive oxygen species scavenging, and ion homeostasis-related regulatory pathways. However, CsBPC2 also affected ABA signaling. The mutation to CsBPC2 adversely affected salt-induced ABA biosynthesis and the expression of ABA signaling-related genes. Our results indicate that CsBPC2 may enhance the cucumber response to salt stress. It may also function as an important regulator of ABA biosynthesis and signal transduction. These findings will enrich our understanding of the biological functions of BPCs, especially their roles in abiotic stress responses, thereby providing the theoretical basis for improving crop salt tolerance.

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