Gerber J K, Gögel E, Berger C, Wallisch M, Müller F, Grummt I, Grummt F
Institute of Biochemistry, University of Würzburg, Germany.
Cell. 1997 Aug 8;90(3):559-67. doi: 10.1016/s0092-8674(00)80515-2.
A replication fork barrier (RFB) at the 3' end of eukaryotic ribosomal RNA genes blocks bidirectional fork progression and limits DNA replication to the same direction as transcription. We have reproduced the RFB in vitro in HeLa cell extracts using 3' terminal murine rDNA fused to an SV40 origin-based vector. The RFB is polar and modularly organized, requiring both the Sal box transcription terminator and specific flanking sequences. Mutations within the terminator element, depletion of the RNA polymerase I-specific transcription termination factor TTF-I, or deletion of the termination domain of TTF-I abolishes RFB activity. Thus, the same factor that blocks elongating RNA polymerase I prevents head-on collision between the DNA replication apparatus and the transcription machinery.
真核生物核糖体RNA基因3'端的复制叉障碍(RFB)会阻止双向叉的推进,并将DNA复制限制在与转录相同的方向。我们利用与基于SV40原点的载体融合的3'末端鼠rDNA,在体外HeLa细胞提取物中重现了RFB。RFB是极性的且呈模块化组织,需要Sal盒转录终止子和特定的侧翼序列。终止子元件内的突变、RNA聚合酶I特异性转录终止因子TTF-I的缺失或TTF-I终止结构域的缺失都会消除RFB活性。因此,阻断延伸的RNA聚合酶I的同一因子可防止DNA复制装置与转录机制发生正面碰撞。