水泡性口炎病毒及其温度敏感突变体感染的鸡胚细胞中尿苷掺入情况的分析:尿苷转运
Analysis of uridine incorporation in chicken embryo cells infected by vesicular stomatitis virus and its temperature-sensitive mutants: uridine transport.
作者信息
Genty N
出版信息
J Virol. 1975 Jan;15(1):8-15. doi: 10.1128/JVI.15.1.8-15.1975.
Abstract
The shut-off of RNA synthesis in chicken embryo cells, after infection with vesicular stomatitis virus, is partially due to a reduced capacity of the infected cells to transport uridine. Permeability to uridine decreases exponentially after infection. This loss of ability to transport uridine may be caused either by structural components of the input virions or may result from the expression of the viral gene products. In the latter case, only minor levels of viral transcription is sufficient to modify cellular permeability, since, even at low multiplicities, RNA minus temperature-sensitive (ts) mutants of vesicular stomatitis virus bring about a significant diminution of uridine incorporation in cells infected under nonpermissive conditions. Experiments with mutants of group III suggest that the M protein of the viral envelope may play a role in the sequence of events that modifies uridine transport. In addition to this cause of the diminution of incorporation of uridine by infected cells, another mechanism is noted which requires protein synthesis.
摘要
感染水疱性口炎病毒后,鸡胚细胞中RNA合成的关闭部分是由于受感染细胞转运尿苷的能力降低。感染后,对尿苷的通透性呈指数下降。这种转运尿苷能力的丧失可能是由输入病毒粒子的结构成分引起的,也可能是病毒基因产物表达的结果。在后一种情况下,即使是少量的病毒转录也足以改变细胞通透性,因为即使在低感染复数时,水疱性口炎病毒的RNA负链温度敏感(ts)突变体也会导致在非允许条件下感染的细胞中尿苷掺入量显著减少。对III组突变体的实验表明,病毒包膜的M蛋白可能在改变尿苷转运的一系列事件中起作用。除了感染细胞中尿苷掺入减少的这个原因外,还发现了另一种需要蛋白质合成的机制。
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