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来自猿猴病毒5反基因组启动子的RNA复制需要三个序列依赖性元件,这些元件被序列非依赖性间隔区隔开。

RNA replication from the simian virus 5 antigenomic promoter requires three sequence-dependent elements separated by sequence-independent spacer regions.

作者信息

Keller M A, Murphy S K, Parks G D

机构信息

Department of Microbiology and Immunology, Wake Forest University School of Medicine, Winston-Salem, North Carolina 27157-1064, USA.

出版信息

J Virol. 2001 Apr;75(8):3993-8. doi: 10.1128/JVI.75.8.3993-3998.2001.

DOI:10.1128/JVI.75.8.3993-3998.2001
PMID:11264390
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC114892/
Abstract

We have previously shown for the paramyxovirus simian virus 5 (SV5) that a functional promoter for RNA replication requires proper spacing between two discontinuous elements: a 19-base segment at the 3' terminus (conserved region I [CRI]) and an 18-base internal region (CRII) that is contained within the coding region of the L protein gene. In the work described here, we have used a reverse-genetics system to determine if the 53-base segment between CRI and CRII contains additional sequence-specific signals required for optimal replication or if this segment functions solely as a sequence-independent spacer region. A series of copyback defective interfering minigenome analogs were constructed to contain substitutions of nonviral sequences in place of bases 21 to 72 of the antigenomic promoter, and the relative level of RNA replication was measured by Northern blot analysis. The results from our mutational analysis indicate that in addition to CRI and CRII, optimal replication from the SV5 antigenomic promoter requires a third sequence-dependent element located 51 to 66 bases from the 3' end of the RNA. Minigenome RNA replication was not affected by changes in the either the position of this element in relation to CRI and CRII or the predicted hexamer phase of NP encapsidation. Thus, optimal RNA replication from the SV5 antigenomic promoter requires three sequence-dependent elements, CRI, CRII and bases 51 to 66.

摘要

我们之前已针对副粘病毒猴病毒5(SV5)证明,RNA复制的功能性启动子需要两个不连续元件之间有适当的间距:3'末端的一个19个碱基的片段(保守区域I [CRI])和L蛋白基因编码区域内包含的一个18个碱基的内部区域(CRII)。在本文所述的研究中,我们使用了反向遗传学系统来确定CRI和CRII之间的53个碱基的片段是否包含最佳复制所需的其他序列特异性信号,或者该片段是否仅作为一个与序列无关的间隔区域发挥作用。构建了一系列回文缺陷干扰微型基因组类似物,以包含非病毒序列替代反基因组启动子第21至72位碱基的替代物,并通过Northern印迹分析测量RNA复制的相对水平。我们的突变分析结果表明,除了CRI和CRII之外,SV5反基因组启动子的最佳复制还需要第三个序列依赖性元件,位于RNA 3'末端51至66个碱基处。微型基因组RNA复制不受该元件相对于CRI和CRII的位置变化或NP包装预测六聚体相位变化的影响。因此,SV5反基因组启动子的最佳RNA复制需要三个序列依赖性元件,即CRI、CRII和第51至66位碱基。

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本文引用的文献

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Mutations in the 5' trailer region of a respiratory syncytial virus minigenome which limit RNA replication to one step.呼吸道合胞病毒微型基因组5' 非编码区的突变可将RNA复制限制在一个步骤。
J Virol. 2000 Jan;74(1):146-55. doi: 10.1128/jvi.74.1.146-155.2000.
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Highly diverse intergenic regions of the paramyxovirus simian virus 5 cooperate with the gene end U tract in viral transcription termination and can influence reinitiation at a downstream gene.副粘病毒猴病毒5高度多样的基因间隔区在病毒转录终止过程中与基因末端U序列协同作用,并可影响下游基因的重新起始。
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RNA replication for the paramyxovirus simian virus 5 requires an internal repeated (CGNNNN) sequence motif.副黏病毒猿猴病毒5的RNA复制需要一个内部重复的(CGNNNN)序列基序。
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Paramyxovirus RNA synthesis and the requirement for hexamer genome length: the rule of six revisited.副黏病毒RNA合成及对六聚体基因组长度的要求:重温“六规则”
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Genome nucleotide lengths that are divisible by six are not essential but enhance replication of defective interfering RNAs of the paramyxovirus simian virus 5.可被6整除的基因组核苷酸长度并非必需,但能增强副粘病毒猿猴病毒5缺陷干扰RNA的复制。
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