Institute of Microbiology, Technische Universität Braunschweig, Germany.
Appl Microbiol Biotechnol. 2010 Sep;88(2):529-39. doi: 10.1007/s00253-010-2732-y. Epub 2010 Jul 2.
Gene "7" of Escherichia coli phage K1E was proposed to encode a novel DNA-dependent RNA polymerase (RNAP). The corresponding protein was produced recombinantly, purified to apparent homogeneity via affinity chromatography, and successfully employed for in vitro RNA synthesis. Optimal assay conditions (pH 8, 37 degrees C, 10 mM magnesium chloride and 1.3 mM spermidine) were established. The corresponding promoter regions were identified on the phage genome and summarized in a sequence logo. Surprisingly, next to K1E promoters, the SP6 promoter was also recognized efficiently in vitro by K1E RNAP, while the T7 RNAP promoter was not recognized at all. Based on these results, a system for high-yield in vitro RNA synthesis using K1E RNAP was established. The template plasmid is a pUC18 derivative, which enables blue/white screening for positive cloning of the target DNA. Production of more than 5 microg of purified RNA per microgram plasmid DNA was achieved. Finally, in vivo protein production systems for Bacillus megaterium were established based on K1E and SP6 phage RNAP transcription. Up to 61.4 mg g (CDW) (-1) (K1E RNAP) of the reporter protein Gfp was produced in shaking flask cultures of B. megaterium.
大肠杆菌噬菌体 K1E 的基因“7”被提议编码一种新型的 DNA 依赖性 RNA 聚合酶(RNAP)。相应的蛋白质通过亲和层析被重组产生、并被纯化到明显的均一性,并且成功地用于体外 RNA 合成。确定了最佳的测定条件(pH8、37°C、10mM 氯化镁和 1.3mM 亚精胺)。在噬菌体基因组上鉴定了相应的启动子区域,并在序列标志中进行了总结。令人惊讶的是,除了 K1E 启动子之外,K1E RNAP 还能在体外有效地识别 SP6 启动子,而 T7 RNAP 启动子则根本无法识别。基于这些结果,建立了使用 K1E RNAP 进行高效体外 RNA 合成的系统。模板质粒是 pUC18 的衍生物,它能够进行蓝/白筛选,以阳性克隆目标 DNA。每微克质粒 DNA 可生产超过 5 微克的纯化 RNA。最后,基于 K1E 和 SP6 噬菌体 RNAP 转录,建立了用于巨大芽孢杆菌的体内蛋白质生产系统。在巨大芽孢杆菌的摇瓶培养中,报告蛋白 GFP 的产量高达 61.4mg g(CDW)(-1)(K1E RNAP)。
