Systematic identification and expression profiling of calmodulin-binding transcription activator genes reveal insights into their functional diversity against pathogens in sugarcane

IF 6.8 Q1 PLANT SCIENCES Plant Stress Pub Date : 2024-11-03 DOI:10.1016/j.stress.2024.100660

Talha Javed , Wenzhi Wang , Juan Li , Tingting Sun , Linbo Shen , San-Ji Gao , Shuzhen Zhang

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Abstract

The calmodulin-binding transcription activator (CAMTA) proteins in plants play significant roles in signal-transduction, activation of regulatory networks, and defense response against environmental stressors. In this study we systematically identified a total 17 CAMTA genes (named as SsnpCAMTAs) in Saccharum spontaneum Np-X genome. Moreover, SsnpCAMTAs exhibited diverse physio-chemical and gene structural attributes. Notably, eight SsnpCAMTA gene pairs displayed segmental duplication events, while CAMTA genes from S. spontaneum Np-X and Arabidopsis thaliana shared homology relationship. In-vitro interaction networking showed that SsnpCAMTA1 and SsnpCAMTA2 were the core protein which interacted with each other as well as with other four different proteins (SsnpCAMTA5/7/13/17). To check functional variability, the expression profiles of SsnpCAMTAs were quantified in transcriptomic and proteomic datasets triggered by Xanthomonas albilineans (Xa) and Acidovorax avenae subsp. avenae (Aaa). The temporal expression of SsnpCAMTA4/5 was ranged between 1.7–3.5 folds in sugarcane cultivars triggered by Xa infection. Most of the SsnpCAMTAs exhibited irregular expression profile in sugarcane cultivars triggered by Aaa infection. Additionally, transcript expression profiles of eight candidate genes SsnpCAMTA1/2/5/7/8/12/13/17 were determined by RT-qPCR assay in sugarcane cultivars Zhongtang3 (resistant to smut) and ROC22 (susceptible to smut) under Sporisorium scitamineum pathogen infection. Interestingly, the transcript expression of SsnpCAMTA5 was upregulated from 1.4 to 10.8 folds as compared to control in both cultivars, while SsnpCAMTA8 was downregulated in both cultivars. Overall, our results provide valuable candidate gene resources for the development of disease-resistant sugarcane cultivars in the face of current climate change scenarios.

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钙调蛋白结合转录激活基因的系统鉴定和表达谱分析揭示了甘蔗中这些基因对抗病原体的功能多样性

植物中的钙调素结合转录激活因子（CAMTA）蛋白在信号转导、激活调控网络以及对环境胁迫的防御反应中发挥着重要作用。本研究系统地鉴定了蔗糖 Np-X 基因组中的 17 个 CAMTA 基因（命名为 SsnpCAMTAs）。此外，SsnpCAMTAs 还表现出不同的物理化学和基因结构特征。值得注意的是，有八个 SsnpCAMTA 基因对出现了片段复制事件，而来自 S. spontaneum Np-X 和拟南芥的 CAMTA 基因具有同源关系。体外相互作用网络显示，SsnpCAMTA1 和 SsnpCAMTA2 是相互之间以及与其他四种不同蛋白（SsnpCAMTA5/7/13/17）相互作用的核心蛋白。为了检验功能的可变性，在黄单胞菌（Xanthomonas albilineans，Xa）和枳亚种（Acidovorax avenae subsp.avenae，Aaa）引发的转录组和蛋白质组数据集中对 SsnpCAMTAs 的表达谱进行了量化。在受到 Xa 感染的甘蔗栽培品种中，SsnpCAMTA4/5 的时间表达在 1.7-3.5 倍之间。大多数 SsnpCAMTAs 在 Aaa 感染引发的甘蔗栽培品种中表现出不规则的表达谱。此外，通过 RT-qPCR 方法测定了 Sporisorium scitamineum 病原体感染下甘蔗中堂 3 号（抗烟粉虱）和 ROC22 号（易感烟粉虱）8 个候选基因 SsnpCAMTA1/2/5/7/8/12/13/17 的转录表达谱。有趣的是，与对照相比，SsnpCAMTA5 的转录表达在这两个品种中上调了 1.4 至 10.8 倍，而 SsnpCAMTA8 则在这两个品种中下调。总之，我们的研究结果为在当前气候变化情况下开发抗病甘蔗品种提供了宝贵的候选基因资源。

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来源期刊

Plant Stress PLANT SCIENCES-

CiteScore

5.20

自引率

8.00%

发文量

审稿时长

63 days

期刊介绍： The journal Plant Stress deals with plant (or other photoautotrophs, such as algae, cyanobacteria and lichens) responses to abiotic and biotic stress factors that can result in limited growth and productivity. Such responses can be analyzed and described at a physiological, biochemical and molecular level. Experimental approaches/technologies aiming to improve growth and productivity with a potential for downstream validation under stress conditions will also be considered. Both fundamental and applied research manuscripts are welcome, provided that clear mechanistic hypotheses are made and descriptive approaches are avoided. In addition, high-quality review articles will also be considered, provided they follow a critical approach and stimulate thought for future research avenues. Plant Stress welcomes high-quality manuscripts related (but not limited) to interactions between plants and: Lack of water (drought) and excess (flooding), Salinity stress, Elevated temperature and/or low temperature (chilling and freezing), Hypoxia and/or anoxia, Mineral nutrient excess and/or deficiency, Heavy metals and/or metalloids, Plant priming (chemical, biological, physiological, nanomaterial, biostimulant) approaches for improved stress protection, Viral, phytoplasma, bacterial and fungal plant-pathogen interactions. The journal welcomes basic and applied research articles, as well as review articles and short communications. All submitted manuscripts will be subject to a thorough peer-reviewing process.