硅对黄瓜花叶病毒感染相关转录本的影响。

S Holz, M Kube, G Bartoszewski, C Büttner
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引用次数: 0

摘要

可溶性硅(Si)在减轻植物病毒感染中的作用在很大程度上是未知的。为了分析这一知识空白,本研究提供了1)对照,2)黄瓜花叶病毒(CMV)感染和3)二氧化钠处理,CMV感染的黄瓜B10系组织培养再生植株的相关基因表达数据。接种后6天,通过RT-PCR检测CMV是否存在。选择与cmv防御相关的5个宿主基因(argonaute蛋白、WRKY转录因子)和复制相关的5个宿主基因(伴侣蛋白、热休克同源蛋白、水通道蛋白)进行qRT-PCR检测。si处理和cmv感染植株的相对基因表达量与cmv感染植株的相对基因表达量差异不显著,但与对照植株的相对基因表达量差异显著。在si处理的克隆中,伴侣蛋白和热休克同源基因的上调与病毒复制增强有关,而转录因子的基因表达增加并与防御有关,而在cmv感染的克隆中表达减少。在si处理、cmv感染和cmv感染的克隆中,水通道蛋白基因表达下调,而argonaute基因表达不受影响。由于在硅处理的植株中观察到与病毒感染相关的关键基因的缓解和支持基因变化,因此二氧化钠对黄瓜培养的巨细胞病毒感染具有中性和有限的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
THE IMPACT OF SILICON ON TRANSCRIPTS RELATED TO CUCUMBER MOSAIC VIRUS INFECTION IN CUCUMBER.

The role of soluble silicon (Si) in alleviating viral plant infections is largely unknown. In order to analyse this gap in knowledge, this study provides insights into the relative gene expression data obtained from 1) control, 2) Cucumber mosaic virus (CMV)-infected and 3) sodium silica-treated, CMV-infected Cucumis sativus line B10 tissue cultures regenerated plants. The absence or presence of CMV was determined through RT-PCR, six days' post-inoculation. qRT-PCR was performed on five selected host genes related to CMV-defence (argonaute protein, WRKY transcription factor) and replication (chaperone, heat shock cognate protein, aquaporin). Relative gene expressions from Si-treated, CMV-infected clones were not significantly different from CMV-infected clones, but they were significantly different from the control plants. The upregulation of the chaperone, and heat shock cognate genes in Si-treated clones, is associated with enhanced virus replication, while the gene expression of the transcription factor increases and is related to defence, in contrast to decreased expression in CMV-infected clones. Aquaporin gene expression was downregulated and the argonaute expression was unaffected in both Si-treated, CMV-infected as well as CMV-infected clones. Since both alleviating and supportive gene shifts are observed in Si-treated plantlets for key genes related to the virus infection examined herein, sodium silica is suggested to have a neutral and limited impact on CMV infection in cucumber cultures.

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