Pan W J, Gallagher R C, Blackburn E H
Department of Microbiology and Immunology, University of California, San Francisco 94143-0414, USA.
Mol Cell Biol. 1995 Jun;15(6):3372-81. doi: 10.1128/MCB.15.6.3372.
In the somatic macronucleus of the ciliate Tetrahymena thermophila, the palindromic rRNA gene (rDNA) minichromosome is replicated from an origin near the center of the molecule in the 5' nontranscribed spacer. The replication of this rDNA minichromosome is under both cell cycle and copy number control. We addressed the effect on origin function of transcription through this origin region. A construct containing a pair of 1.9-kb tandem direct repeats of the rDNA origin region, containing the origin plus a mutated (+G), but not a wild type, rRNA promoter, is initially maintained in macronuclei as an episome. Late, linear and circular replicons with long arrays of tandem repeats accumulate (W.-J. Pan and E. H. Blackburn, Nucleic Acids Res, in press). We present direct evidence that the +G mutation inactivates this rRNA promoter. It lacks the footprint seen on the wild-type promoter and produces no detectable in vivo transcript. Independent evidence that the failure to maintain wild-type 1.9-kb repeats was caused by transcription through the origin came from placing a short DNA segment containing the rRNA gene transcriptional termination region immediately downstream of the wild-type rRNA promoter. Insertion of this terminator sequence in the correct, but not the inverted, orientation restored plasmid maintenance. Hence, origin function was restored by inactivating the rRNA promoter through the +G mutation or causing termination before transcripts from a wild-type promoter reached the origin region. We propose that transcription by RNA polymerase I through the rDNA origin inhibits replication by preventing replication factors from assembling at the origin.
在嗜热四膜虫的体细胞大核中,回文核糖体RNA基因(rDNA)微型染色体从5'非转录间隔区分子中心附近的一个起点开始复制。这种rDNA微型染色体的复制受细胞周期和拷贝数的双重控制。我们研究了通过该起点区域进行转录对起点功能的影响。一个构建体包含一对1.9 kb的rDNA起点区域串联直接重复序列,其中包含起点加上一个突变的(+G)而非野生型的rRNA启动子,最初作为附加体维持在大核中。后期,带有长串联重复序列阵列的线性和环状复制子会积累(潘文杰和E.H.布莱克本,《核酸研究》,即将发表)。我们提供了直接证据表明+G突变使该rRNA启动子失活。它缺乏在野生型启动子上看到的足迹,并且在体内不产生可检测到的转录本。关于未能维持野生型1.9 kb重复序列是由通过起点的转录导致的独立证据来自于将一个包含rRNA基因转录终止区域的短DNA片段置于野生型rRNA启动子的紧邻下游。以正确而非反向的方向插入该终止序列可恢复质粒的维持。因此,通过+G突变使rRNA启动子失活或在野生型启动子的转录本到达起点区域之前导致终止,可恢复起点功能。我们提出,RNA聚合酶I通过rDNA起点进行的转录通过阻止复制因子在起点处组装来抑制复制。