转录停滞:大肠杆菌RNA聚合酶向后移位,使RNA的3'端保持完整并被挤出。
Transcriptional arrest: Escherichia coli RNA polymerase translocates backward, leaving the 3' end of the RNA intact and extruded.
作者信息
Komissarova N, Kashlev M
机构信息
Public Health Research Institute, New York, NY 10016, USA.
出版信息
Proc Natl Acad Sci U S A. 1997 Mar 4;94(5):1755-60. doi: 10.1073/pnas.94.5.1755.
Abstract
RNA polymerase (RNAP) may become arrested during transcript elongation when ternary complexes remain intact but further RNA synthesis is blocked. Using a combination of DNA and RNA footprinting techniques, we demonstrate that the loss of catalytic activity upon arrest of Escherichia coli RNAP is accompanied by an isomerization of the ternary complex in which the enzyme disengages from the 3' end of the transcript and moves backward along the DNA with concomitant reverse threading of the intact RNA through the enzyme. The reversal of RNAP brings the active center to the internal RNA position and thereby it represents a step in factor-facilitated transcript cleavage. Secondary structure elements or the 5' end of the transcript can prevent the isomerization by blocking the RNA threading. The described novel property of RNAP has far-reaching implications for the understanding of the elongation mechanism and gene regulation.
摘要
当三元复合物保持完整但进一步的RNA合成受阻时,RNA聚合酶(RNAP)在转录延伸过程中可能会停滞。通过结合DNA和RNA足迹技术,我们证明,大肠杆菌RNAP停滞时催化活性的丧失伴随着三元复合物的异构化,其中酶从转录本的3'末端脱离,并沿着DNA向后移动,同时完整的RNA通过酶进行反向穿线。RNAP的反向移动将活性中心带到RNA内部位置,因此它代表了因子促进的转录本切割中的一个步骤。转录本的二级结构元件或5'末端可以通过阻止RNA穿线来防止异构化。RNAP的这种新特性对理解延伸机制和基因调控具有深远意义。
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