鉴定dnaX作为parE10等位基因条件致死和分离表型的高拷贝抑制因子。
Identification of dnaX as a high-copy suppressor of the conditional lethal and partition phenotypes of the parE10 allele.
作者信息
Levine C, Marians K J
机构信息
Molecular Biology Graduate Program, Cornell University Graduate School of Medical Sciences, New York, New York 10021, USA.
出版信息
J Bacteriol. 1998 Mar;180(5):1232-40. doi: 10.1128/JB.180.5.1232-1240.1998.
Abstract
Termination of DNA replication, complete topological unlinking of the parental template DNA strands, partition of the daughter chromosomes, and cell division follow in an ordered and interdependent sequence during normal bacterial growth. In Escherichia coli, topoisomerase IV (Topo IV), encoded by parE and parC, is responsible for decatenation of the two newly formed chromosomes. In an effort to uncover the pathway of information flow between the macromolecular processes that describe these events, we identified dnaX, encoding the tau and gamma subunits of the DNA polymerase III holoenzyme, as a high-copy suppressor of the temperature-sensitive phenotype of the parE10 allele. We show that suppression derives from overexpression of the gamma, but not the tau, subunit of the holoenzyme and that the partition defect of parE10 cells is nearly completely reverted at the nonpermissive temperature as well. These observations suggest a possible association between Topo IV and the replication machinery.
摘要
在正常细菌生长过程中,DNA复制的终止、亲代模板DNA链的完全拓扑解链、子代染色体的分配以及细胞分裂按有序且相互依赖的顺序进行。在大肠杆菌中,由parE和parC编码的拓扑异构酶IV(Topo IV)负责解开两条新形成的染色体的连环。为了揭示描述这些事件的大分子过程之间的信息流途径,我们鉴定出编码DNA聚合酶III全酶的tau和gamma亚基的dnaX,作为parE10等位基因温度敏感表型的高拷贝抑制子。我们表明,抑制作用源于全酶gamma亚基而非tau亚基的过表达,并且parE10细胞的分配缺陷在非允许温度下也几乎完全恢复。这些观察结果表明Topo IV与复制机器之间可能存在关联。
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