表达干扰卫星 RNA 提高植物对竹嵌纹病毒的抗性。

Transgenic resistance to Bamboo mosaic virus by expression of interfering satellite RNA.

机构信息

Institute of Biotechnology, National Cheng Kung University, Tainan, 701, Taiwan.

出版信息

Mol Plant Pathol. 2013 Sep;14(7):693-707. doi: 10.1111/mpp.12040. Epub 2013 May 16.

DOI:10.1111/mpp.12040

PMID:23675895

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6638707/

Abstract

Plant genetic engineering has broadened the options for plant virus resistance and is mostly based on pathogen-derived resistance. Previously, we have shown that interfering satellite RNA (satRNA) of Bamboo mosaic virus (satBaMV) greatly reduces Bamboo mosaic virus (BaMV) accumulation and BaMV-induced symptoms in co-inoculated plants. Here, we generated a nonviral source of virus-resistant transgenic Nicotiana benthamiana and Arabidopsis thaliana by introducing interfering satBaMV. Asymptomatic transgenic N. benthamiana lines were highly resistant to BaMV virion and viral RNA infection, and the expression of the transgene BSL6 was higher in asymptomatic than mildly symptomatic lines. In addition, BaMV- and satBaMV-specific small RNAs were detectable only after BaMV challenge, and their levels were associated with genomic viral RNA or satRNA levels. By transcriptomic analysis, the salicylic acid (SA) signalling pathway was not induced in satBaMV transgenic A. thaliana in mock conditions, suggesting that two major antiviral mechanisms, RNA silencing and SA-mediated resistance, are not involved directly in transgenic satBaMV-mediated BaMV interference. In contrast, resistance is associated with the level of the interfering satBaMV transgene. We propose satBaMV-mediated BaMV interference in transgenic plants by competition for replicase with BaMV.

摘要

植物遗传工程拓宽了植物抗病毒的选择范围，主要基于病原体衍生的抗性。以前，我们已经表明，干扰竹子花叶病毒（satBaMV）的卫星 RNA（satRNA）可大大减少共接种植物中的竹子花叶病毒（BaMV）积累和 BaMV 诱导的症状。在这里，我们通过引入干扰的 satBaMV ，生成了一种非病毒来源的抗病毒转基因烟草原生质体和拟南芥。无症状的转基因烟草原生质体品系对 BaMV 病毒粒子和病毒 RNA 感染具有高度抗性，并且在无症状品系中转基因 BSL6 的表达高于轻度症状品系。此外，仅在 BaMV 攻击后才能检测到 BaMV 和 satBaMV 特异性小 RNA，并且它们的水平与基因组病毒 RNA 或 satRNA 水平相关。通过转录组分析，在模拟条件下，satBaMV 转基因拟南芥中未诱导水杨酸（SA）信号通路，表明两种主要的抗病毒机制，RNA 沉默和 SA 介导的抗性，不直接参与转基因 satBaMV 介导的 BaMV 干扰。相比之下，抗性与干扰 satBaMV 转基因的水平有关。我们提出了 satBaMV 通过与 BaMV 竞争复制酶介导的转基因植物中的 BaMV 干扰。

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