Bruni C B, Musti A M, Frunzio R, Blasi F
J Bacteriol. 1980 Apr;142(1):32-42. doi: 10.1128/jb.142.1.32-42.1980.
A fragment of deoxyribonucleic acid 5,300 base paris long and containing the promoter-proximal portion of the histidine operon of Escherichia coli K-12, has been cloned in plasmid pBR313 (plasmids pCB2 and pCB3). Restriction mapping, partial nucleotide sequencing, and studies on functional expression in vivo and on protein synthesis in minicells have shown that the fragment contains the regulatory region of the operon, the hisG, hisD genes, and part of the hisC gene. Another plasmid (pCB5) contained the hisG gene and part of the hisD gene. Expression of the hisG gene in the latter plasmid was under control of the tetracycline promoter of the pBR313 plasmid. The in vivo expression of the two groups of plasmids described above, as well as their effect on the expression of the histidine genes not carried by the plasmids but present on the host chromosome, has been studied. The presence of multiple copies of pCB2 or pCB3, but not of pCB5, prevented derepression of the chromosomal histidine operon. Possible interpretations of this phenomenon are discussed.
一段长度为5300个碱基对、包含大肠杆菌K - 12组氨酸操纵子启动子近端部分的脱氧核糖核酸片段,已被克隆到质粒pBR313(质粒pCB2和pCB3)中。限制性图谱分析、部分核苷酸测序以及在体内的功能表达研究和在小细胞中的蛋白质合成研究表明,该片段包含操纵子的调控区域、hisG、hisD基因以及hisC基因的一部分。另一个质粒(pCB5)包含hisG基因和hisD基因的一部分。后一个质粒中hisG基因的表达受pBR313质粒四环素启动子的控制。已经研究了上述两组质粒在体内的表达,以及它们对宿主染色体上存在但未由质粒携带的组氨酸基因表达的影响。pCB2或pCB3的多拷贝存在,但pCB5不存在时,可阻止染色体组氨酸操纵子的去阻遏。讨论了对这一现象的可能解释。