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腺病毒E1A基因单个产物的裂解和转化功能。

Lytic and transforming functions of individual products of the adenovirus E1A gene.

作者信息

Moran E, Grodzicker T, Roberts R J, Mathews M B, Zerler B

出版信息

J Virol. 1986 Mar;57(3):765-75. doi: 10.1128/JVI.57.3.765-775.1986.

DOI:10.1128/JVI.57.3.765-775.1986
PMID:2936898
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC252804/
Abstract

To distinguish the individual roles of the 13S, 12S, and 9S adenovirus E1A gene products, we isolated the corresponding cDNA clones and recombined them into both plasmids and viruses. Only the expected E1A mRNA products were made from the corresponding 12S and 13S viruses. The 9S mRNA was detected when the 9S virus was coinfected with the 13S virus but not when either virus was infected alone. The 13S virus formed plaques equally well in 293 cells, HeLa cells, and A549 cells, a human lung oat cell carcinoma line. Plaque titers of the 12S virus were much reduced in HeLa and A549 cells compared with 293 cells, although the 12S virus is multiplicity-dependent leaky in both HeLa and A549 cells. A549 cells were significantly more permissive than HeLa cells for growth of the 12S virus. In A549 cells even at low multiplicities of infection the final yield of 12S virus eventually approached the maximum yield from 293 cells. Expression from the adenovirus early region 2 and early region 3 promoters in HeLa cells was activated in the presence of a 13S cDNA E1A region but not in the presence of a 12S E1A cDNA region. Although defective for lytic growth in HeLa cells, the 12S virus immortalized BRK cells at very high efficiency, whereas infection of these cells with 13S virus, as with wild-type E1A virus, resulted mainly in cell death. The 13S product does have an immortalization function, however, revealed in the absence of adenovirus lytic functions when a plasmid containing the E1A 13S cDNA region was transfected into BRK cells. The 9S virus failed to immortalize infected BRK cells or to interfere with focus formation when coinfected with the 12S virus.

摘要

为了区分13S、12S和9S腺病毒E1A基因产物的各自作用,我们分离了相应的cDNA克隆,并将它们重组到质粒和病毒中。只有预期的E1A mRNA产物由相应的12S和13S病毒产生。当9S病毒与13S病毒共感染时可检测到9S mRNA,但单独感染任何一种病毒时均未检测到。13S病毒在293细胞、HeLa细胞和人肺燕麦细胞癌系A549细胞中形成噬斑的能力相同。与293细胞相比,12S病毒在HeLa细胞和A549细胞中的噬斑滴度大大降低,尽管12S病毒在HeLa细胞和A549细胞中都是多倍体依赖性渗漏的。A549细胞对12S病毒生长的允许性明显高于HeLa细胞。在A549细胞中,即使感染复数较低,12S病毒的最终产量最终也接近293细胞的最大产量。在HeLa细胞中,腺病毒早期区域2和早期区域3启动子的表达在存在13S cDNA E1A区域时被激活,但在存在12S E1A cDNA区域时未被激活。尽管12S病毒在HeLa细胞中的裂解生长有缺陷,但它能以非常高的效率使BRK细胞永生化,而用13S病毒感染这些细胞,与野生型E1A病毒一样,主要导致细胞死亡。然而,当将含有E1A 13S cDNA区域的质粒转染到BRK细胞中时,在没有腺病毒裂解功能的情况下,13S产物确实具有永生化功能。9S病毒未能使感染的BRK细胞永生化,也未能在与12S病毒共感染时干扰灶形成。

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