Berg K L, Squires C L, Squires C
J Bacteriol. 1987 Apr;169(4):1691-701. doi: 10.1128/jb.169.4.1691-1701.1987.
In this study we show that a segment of the Escherichia coli rrnB 16S gene can be translated in vivo. Other laboratories have previously reported that there are internal transcription and translation signals and open reading frames within the E. coli rrnB rRNA operon. Their studies revealed a translation start signal followed by a 252-base-pair open reading frame (ORF16) within the 16S gene and detected a promoter (p16) in the same general region by using in vitro RNA polymerase binding and transcription initiation assays. By using plasmid gene fusions of ORF16 to lacZ we showed that an ORF16'-'beta-galactosidase fusion protein was made in vivo. Transcripts encoding the fusion protein were expressed either from the rrnB p1p2 control region or from a hybrid trp-lac promoter (tacP), but the amount of expression was considerably less than for a lacZ control plasmid. We used fusions to the cat gene to show that p16 is one-half as active as lacP. Deletions were used to show that p16 is located within ORF16 and thus cannot promote a transcript encoding the ORF16 peptide. A comparison of sequences from different organisms shows that ORF16 and p16 lie in a highly conserved region of the procaryotic 16S RNA structure. The first 20 amino acids of ORF16 are conserved in most eubacterial and plant organellar sequences, and promoter activity has been detected in this region of the Caulobacter crescentus sequence by other workers.
在本研究中,我们证明了大肠杆菌rrnB 16S基因的一个片段能够在体内进行翻译。其他实验室之前曾报道,大肠杆菌rrnB rRNA操纵子内存在内部转录和翻译信号以及开放阅读框。他们的研究揭示了16S基因内一个翻译起始信号之后是一个252个碱基对的开放阅读框(ORF16),并且通过体外RNA聚合酶结合和转录起始试验在同一大致区域检测到一个启动子(p16)。通过使用ORF16与lacZ的质粒基因融合,我们证明了在体内产生了ORF16'-β-半乳糖苷酶融合蛋白。编码融合蛋白的转录本可从rrnB p1p2控制区或从一个杂交色氨酸-乳糖启动子(tacP)表达,但表达量远低于lacZ对照质粒。我们使用与cat基因的融合来表明p16的活性是lacP的一半。通过缺失实验表明p16位于ORF16内,因此不能促进编码ORF16肽的转录本。不同生物序列的比较表明,ORF16和p16位于原核生物16S RNA结构的一个高度保守区域。ORF16的前20个氨基酸在大多数真细菌和植物细胞器序列中是保守的,并且其他研究人员在新月柄杆菌序列的该区域检测到了启动子活性。
