酵母中的核外基因表达:关于一种具有独特结构的质粒编码RNA聚合酶的证据。
Extranuclear gene expression in yeast: evidence for a plasmid-encoded RNA polymerase of unique structure.
作者信息
Wilson D W, Meacock P A
机构信息
Leicester Biocentre, University of Leicester, UK.
出版信息
Nucleic Acids Res. 1988 Aug 25;16(16):8097-112.
Abstract
Strains of the yeast Kluyveromyces lactis that produce killer-toxin have been found to contain two linear dsDNA plasmids, k1 (8.9 Kb) and k2 (13.4 Kb). The four transcribed open reading frames of plasmid k1 contain no recognisable yeast nuclear expression signals. Moreover, a toxin subunit gene fused with the lacZ gene of Escherichia coli is not detectably expressed when introduced to K.lactis or Saccharomyces cerevisiae on a nuclear vector, even when native k1 and k2 are present in the cell. This and other evidence is consistent with the hypothesis that k1 and k2 reside in an extranuclear location, and do not utilise the nuclear RNA polymerases I, II or III for transcription of their genes. Sequencing of plasmid k2, which is thought to encode factors necessary for the maintenance or expression of k1, reveals an open reading frame predicted to encode a 974 amino acid polypeptide with homology to several DNA-directed RNA polymerases. We suggest that this is a component of a novel plasmid-specific extranuclear gene expression system.
摘要
已发现产生杀伤毒素的乳酸克鲁维酵母菌株含有两个线性双链DNA质粒,即k1(8.9千碱基对)和k2(13.4千碱基对)。质粒k1的四个转录开放阅读框不包含可识别的酵母核表达信号。此外,当在核载体上引入大肠杆菌的与lacZ基因融合的毒素亚基基因时,即使细胞中存在天然的k1和k2,也无法检测到其表达。这一现象以及其他证据与k1和k2位于核外位置且不利用核RNA聚合酶I、II或III进行基因转录的假设一致。质粒k2的测序表明,它被认为编码维持或表达k1所需的因子,其开放阅读框预计编码一个与几种DNA指导的RNA聚合酶具有同源性的974个氨基酸的多肽。我们认为这是一种新型质粒特异性核外基因表达系统的一个组成部分。
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