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Protonatable hairpins are conserved in the 5'-untranslated region of tymovirus RNAs.可质子化发夹结构在番茄病毒RNA的5'非翻译区中保守存在。
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芜菁黄花叶病毒RNA 5'非翻译区中保守的可质子化发夹结构的功能作用。

A functional role for the conserved protonatable hairpins in the 5' untranslated region of turnip yellow mosaic virus RNA.

作者信息

Hellendoorn K, Verlaan P W, Pleij C W

机构信息

Leiden Institute of Chemistry, Leiden University, The Netherlands.

出版信息

J Virol. 1997 Nov;71(11):8774-9. doi: 10.1128/JVI.71.11.8774-8779.1997.

DOI:10.1128/JVI.71.11.8774-8779.1997
PMID:9343237
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC192343/
Abstract

The 5' untranslated region (UTR) of the RNA of several tymoviruses contains conserved hairpins with protonatable internal loops, consisting of C-C and C-A mismatches (K. Hellendoorn, P. J. A. Michiels, R. Buitenhuis, and C. W. A. Pleij, Nucleic Acids Res. 24, 4910-4917, 1996). Here, we present a functional analysis of the 5' UTR of turnip yellow mosaic virus (TYMV) RNA, which contains two protonatable hairpins with nearly identical internal loops. Mutations were introduced in an infectious cDNA clone, and T7 RNA transcripts were used to infect Chinese cabbage plants. Different symptoms were observed for the various mutants, pointing to a functional role of the C-C and C-A mismatches in the hairpins of the 5' UTR. The replication of the virus is influenced by the mutations made, while in vitro translation studies showed that the expression of the two overlapping reading frames of TYMV is not influenced by the secondary structure of the leader. Various mutants were propagated for up to five serial passages of infection, and the sequence of the 5' UTR was determined. This resulted in virus RNA with new non-wild-type sequences that produced the wild-type phenotype in infected plants. Remarkably, in all cases C-C or C-A mismatches were introduced. The internal loop of the 5'-proximal hairpin seems to be more important for the viral life cycle than that of the second hairpin. A deletion of 75% of the leader, including the two hairpins, resulted in a virus that was deficient in viral spread. Since the ratio between filled and empty capsids was changed drastically by this mutation, a role of the 5' UTR in viral packaging is proposed.

摘要

几种番茄丛矮病毒的RNA的5'非翻译区(UTR)包含具有可质子化内部环的保守发夹结构,该内部环由C-C和C-A错配组成(K. 海伦多恩、P. J. A. 米歇尔斯、R. 比滕胡伊斯和C. W. A. 普莱伊,《核酸研究》24,4910 - 4917,1996年)。在此,我们对芜菁黄花叶病毒(TYMV)RNA的5'UTR进行了功能分析,其包含两个具有几乎相同内部环的可质子化发夹结构。在一个感染性cDNA克隆中引入突变,并使用T7 RNA转录本感染大白菜植株。观察到各种突变体出现不同症状,这表明5'UTR发夹结构中的C-C和C-A错配具有功能作用。病毒的复制受到所做突变的影响,而体外翻译研究表明,TYMV的两个重叠阅读框的表达不受前导序列二级结构的影响。各种突变体在感染过程中连续传代多达5次,并测定了5'UTR的序列。这产生了具有新的非野生型序列的病毒RNA,其在受感染植物中产生野生型表型。值得注意的是,在所有情况下都引入了C-C或C-A错配。5'近端发夹结构的内部环比第二个发夹结构的内部环对病毒生命周期似乎更重要。前导序列(包括两个发夹结构)缺失75%导致一种病毒在病毒传播方面存在缺陷。由于这种突变使完整衣壳与空衣壳的比例发生了巨大变化,因此提出5'UTR在病毒包装中起作用。