StCIPK2–StCBL11 complex negatively modulates drought tolerance in potato plant by regulating oxidative resistance and ABA biosynthesis

IF 5.7 1区农林科学 Q1 HORTICULTURE

Horticultural Plant Journal Pub Date : 2025-04-25 DOI:10.1016/j.hpj.2025.02.005

Rui Ma, Weigang Liu, Shigui Li, Xi Zhu, Jiangwei Yang, Ning Zhang, Huaijun Si

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引用次数: 0

Abstract

Calcineurin B-like (CBL) proteins and CBL-interacting protein kinases (CIPK) play essential roles in regulating plant responses to various stresses. However, the molecular and functional properties of CBL–CIPK in drought response have been rarely characterised in potato plants. In this study, we subjected the potato ‘Atlantic’ cultivar (wild type [WT], ami-StCIPK2, and overexpression [OE] lines) to stress through ABA treatment, osmotic stress, and drought stress. We characterised the potato CBL-interacting protein kinase StCIPK2. We measured the relative water content, superoxide dismutase and peroxidase activities, and H2O2, proline, malondialdehyde, and soluble sugar levels as these are indices of drought tolerance. We estimated the stomatal movement and root growth phenotype (length of plant roots). Finally, we performed a protein interaction assay. We found that StCIPK2 was effectively induced by multiple stressors and is highly homologous to AtCIPK1. Accordingly, StCIPK2 overexpression decreased drought tolerance and ABA sensitivity in potato, whereas StCIPK2 knock-down increased these responses. Moreover, StCIPK2 interacted with StCBL11 on the plasma membrane. Additionally, the drought tolerance indices showed that drought resistance and ABA sensitivity did not differ between StCBL11-OE and WT plants, and StCBL11 overexpression in StCIPK2 knock-down plants negated their drought resistance and ABA sensitivity. Overall, this study shows that the StCBL11–StCIPK2 module negatively regulates drought stress tolerance in potatoes, and it could be used in novel ways to improve stress regulation in potato plant.

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StCIPK2-StCBL11复合物通过调控氧化抗性和ABA生物合成负向调控马铃薯抗旱性

钙调磷酸酶b样蛋白（CBL）和CBL相互作用蛋白激酶（CIPK）在调节植物对各种胁迫的反应中起重要作用。然而，CBL-CIPK在干旱响应中的分子和功能特性在马铃薯植物中很少有表征。在本研究中，我们对马铃薯“大西洋”品种（野生型[WT]、ami-StCIPK2和过表达系[OE]）进行了ABA处理、渗透胁迫和干旱胁迫。我们对马铃薯cbl相互作用蛋白激酶StCIPK2进行了表征。我们测量了相对含水量、超氧化物歧化酶和过氧化物酶活性以及H2O2、脯氨酸、丙二醛和可溶性糖水平，因为这些是耐旱性的指标。我们估计了气孔运动和根系生长表型（植物根系长度）。最后，我们进行了蛋白相互作用实验。我们发现StCIPK2可以被多种应激源有效诱导，并且与AtCIPK1高度同源。因此，StCIPK2过表达降低了马铃薯的抗旱性和ABA敏感性，而StCIPK2敲低则增加了这些反应。此外，StCIPK2与质膜上的StCBL11相互作用。此外，耐旱性指标显示StCBL11- oe和WT植株的抗旱性和ABA敏感性没有差异，StCIPK2敲除植株中StCBL11的过表达使其抗旱性和ABA敏感性降低。综上所述，本研究表明StCBL11-StCIPK2模块负调控马铃薯的干旱胁迫耐受性，可用于改善马铃薯植株的胁迫调节。

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来源期刊

Horticultural Plant Journal Environmental Science-Ecology

CiteScore

9.60

自引率

14.00%

发文量

293

审稿时长

33 weeks

期刊介绍： Horticultural Plant Journal (HPJ) is an OPEN ACCESS international journal. HPJ publishes research related to all horticultural plants, including fruits, vegetables, ornamental plants, tea plants, and medicinal plants, etc. The journal covers all aspects of horticultural crop sciences, including germplasm resources, genetics and breeding, tillage and cultivation, physiology and biochemistry, ecology, genomics, biotechnology, plant protection, postharvest processing, etc. Article types include Original research papers, Reviews, and Short communications.