Higashitani N, Higashitani A, Horiuchi K
Department of Genetics, Graduate University for Advanced Studies, Mishima, Japan.
J Virol. 1993 Apr;67(4):2175-81. doi: 10.1128/JVI.67.4.2175-2181.1993.
We determined the nucleotide sequence of RNA synthesized in vitro by Escherichia coli RNA polymerase at the complementary-strand replication origin on the single-stranded viral DNA of bacteriophages f1 and IKe (ori-RNA) by using chain-terminating ribonucleoside triphosphate analogs. The results indicated that the start site of f1 ori-RNA synthesis is 20 nucleotides downstream from the site previously reported (K. Geider, E. Beck, and H. Schaller, Proc. Natl. Acad. Sci. USA 75:645-649, 1978) and that the RNA sequence [(5')pppAGGGCGAUGGCCCACUACGU-OH(3')] is complementary to the f1 DNA sequence from nucleotides 5736 to 5717, with minor heterogeneity at the 3' end. IKe ori-RNA had a sequence identical to that of f1 ori-RNA, except for a single base substitution, and IKe RNA was complementary to a region of IKe DNA (from nucleotides 6441 to 6422) that was homologous to the f1 sequence. Phenotypes and ori-RNA sequences in the relevant region of the genome of f1 deletion mutants were consistent with the presently determined sequence of ori-RNA. A possibility that ori-RNA synthesis is initiated by a mechanism similar to that for general transcription is suggested as a result of the new assignment of the ori-RNA start site. The double-origin plasmid assay of minus-strand origin activity, a sensitive in vivo method for detecting cis-acting elements for the initiation of DNA replication on a single-stranded DNA template, is described.
我们利用链终止核糖核苷三磷酸类似物,确定了大肠杆菌RNA聚合酶在噬菌体f1和IKe单链病毒DNA互补链复制起点(ori-RNA)上体外合成的RNA的核苷酸序列。结果表明,f1 ori-RNA合成的起始位点在先前报道的位点下游20个核苷酸处(K. Geider、E. Beck和H. Schaller,《美国国家科学院院刊》75:645 - 649,1978),并且RNA序列[(5')pppAGGGCGAUGGCCCACUACGU - OH(3')]与f1 DNA从核苷酸5736到5717的序列互补,3'端存在轻微异质性。IKe ori-RNA的序列与f1 ori-RNA相同,只是有一个单碱基替换,并且IKe RNA与IKe DNA的一个区域(从核苷酸6441到6422)互补,该区域与f1序列同源。f1缺失突变体基因组相关区域的表型和ori-RNA序列与目前确定的ori-RNA序列一致。ori-RNA起始位点的新定位结果表明,ori-RNA合成可能是由一种类似于一般转录的机制启动的。本文描述了负链起始活性的双起点质粒分析,这是一种在体内检测单链DNA模板上DNA复制起始顺式作用元件的灵敏方法。