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丁型肝炎病毒反基因组RNA转录本的可变加工

Alternative processing of hepatitis delta virus antigenomic RNA transcripts.

作者信息

Nie Xingcao, Chang Jinhong, Taylor John M

机构信息

Fox Chase Cancer Center, Philadelphia, Pennsylvania 19111-2497, USA.

出版信息

J Virol. 2004 May;78(9):4517-24. doi: 10.1128/jvi.78.9.4517-4524.2004.

DOI:10.1128/jvi.78.9.4517-4524.2004
PMID:15078932
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC387716/
Abstract

Intrinsic to the life cycle of hepatitis delta virus (HDV) is the fact that its RNAs undergo different forms of posttranscriptional RNA processing. Transcripts of both the genomic RNA and its exact complement, the antigenomic RNA, undergo ribozyme cleavage and RNA ligation. In addition, antigenomic RNA transcripts can undergo 5' capping, 3' polyadenylation, and even RNA editing by an adenosine deaminase. This study focused on the processing of antigenomic RNA transcripts. Two approaches were used to study the relationship between the events of polyadenylation, ribozyme cleavage, and RNA ligation. The first represented an examination under more controlled conditions of mutations in the poly(A) signal, AAUAAA, which is essential for this processing. We found that when a separate stable source of deltaAg-S, the small delta protein, was provided, the replication ability of the mutated RNA was restored. The second approach involved an examination of the processing in transfected cells of specific Pol II DNA-directed transcripts of HDV antigenomic sequences. The DNA constructs used were such that the RNA transcripts were antigenomic and began at the same 5' site as the mRNA produced during RNA-directed HDV genome replication. A series of such constructs was assembled in order to test the relative abilities of the transcripts to undergo processing by polyadenylation or ribozyme cleavage at sites further 3' on a multimer of HDV sequences. The findings from the two experimental approaches led to significant modifications in the rolling-circle model of HDV genome replication.

摘要

丁型肝炎病毒(HDV)生命周期的内在特点是其RNA会经历不同形式的转录后RNA加工。基因组RNA及其精确互补链(反基因组RNA)的转录本都会经历核酶切割和RNA连接。此外,反基因组RNA转录本可以进行5'加帽、3'聚腺苷酸化,甚至可被腺苷脱氨酶进行RNA编辑。本研究聚焦于反基因组RNA转录本的加工。采用了两种方法来研究聚腺苷酸化、核酶切割和RNA连接事件之间的关系。第一种方法是在更可控的条件下,研究对该加工过程至关重要的聚(A)信号AAUAAA中的突变。我们发现,当提供单独稳定的小δ蛋白deltaAg-S来源时,突变RNA的复制能力得以恢复。第二种方法是检测转染细胞中HDV反基因组序列特定的Pol II DNA指导转录本的加工情况。所使用的DNA构建体使得RNA转录本为反基因组,且与RNA指导的HDV基因组复制过程中产生的mRNA从相同的5'位点开始。组装了一系列这样的构建体,以测试转录本在HDV序列多聚体上3'端更远位点进行聚腺苷酸化或核酶切割加工的相对能力。这两种实验方法的研究结果导致对HDV基因组复制的滚环模型进行了重大修改。

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