A bacteriophage T3 promoter can be linked to a lethal gene without detectable toxicity for eukaryotic cells. Interest for inducible transgenes.

M Amouyal
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Abstract

The bacteriophage T3 promoter can be selectively transcribed by the corresponding RNA polymerase in eukaryotic cells. A toxic gene can in principle be linked to this promoter in a "dormant" and innocuous transgene in a transgenic animal. In this scheme, the activating strain expresses the RNA polymerase. When expression of the gene is needed in the progeny, the 2 lines are crossed. However, when a single molecule is sufficient to kill the cell--as with the diphtheria toxin--transcriptional "leakage" from the promoter may not be tolerated by the cell, even when extremely weak. Therefore, prior to more elaborate studies, diphtheria toxin, as a prototype of a gene toxic to the organism, has been linked to the bacteriophage T3 promoter in a T3-E-DTA construct. The T3-E-DTA plasmid has been transiently transfected into human embryonic kidney derived cells together with a lacZ plasmid. By co-transfection, the T3-E-DTA cells can be readily identified as lacZ positive, and their fate followed by the production of beta-galactosidase at the single cell or overall population level. In spite of the extreme toxicity of the toxin, the cells tolerate the presence of the T3-E-DTA construct, and are only killed--with a high efficiency--when the T3 RNA polymerase is present. Transactivation is usually restricted to the auxiliary factors of transcription. With this study, the promoter and the polymerase are revealed as potential and efficient inducible and activating elements of a very simple binary system.

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噬菌体T3启动子可以连接到一个致命的基因,而对真核细胞没有可检测到的毒性。对可诱导转基因的兴趣。
在真核细胞中,噬菌体T3启动子可被相应的RNA聚合酶选择性转录。原则上,在转基因动物的“休眠”和无害的转基因中,有毒基因可以与这个启动子联系起来。在这个方案中,激活菌株表达RNA聚合酶。当需要在后代中表达该基因时,将两条系交叉。然而,当单个分子足以杀死细胞时——就像白喉毒素一样——启动子的转录“泄漏”可能无法被细胞容忍,即使是在极其微弱的情况下。因此,在更详细的研究之前,白喉毒素作为对生物体有毒的基因的原型,已经在T3- e - dta结构中与噬菌体T3启动子相关联。T3-E-DTA质粒与lacZ质粒一起瞬时转染人胚胎肾源性细胞。通过共转染,T3-E-DTA细胞可以很容易地被鉴定为lacZ阳性,并且它们的命运随后在单细胞或总体水平上产生β -半乳糖苷酶。尽管毒素具有极大的毒性,但细胞耐受T3- e - dta结构的存在,并且只有在T3 RNA聚合酶存在时才被高效率地杀死。反激活通常局限于转录的辅助因子。通过这项研究,启动子和聚合酶是一个非常简单的二元系统的潜在和有效的诱导和激活元件。
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