大肠杆菌 K-12 有两种可区分的 PriA-PriB 复制重新启动途径。

Escherichia coli K-12 has two distinguishable PriA-PriB replication restart pathways.

机构信息

Department of Microbiology, University of Massachusetts at Amherst, Amherst, Massachusetts, USA.

Biology Department, McGill University, Montreal, Canada.

出版信息

Mol Microbiol. 2021 Oct;116(4):1140-1150. doi: 10.1111/mmi.14802. Epub 2021 Sep 2.

DOI:10.1111/mmi.14802

PMID:34423481

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8541903/

Abstract

In Escherichia coli, PriA, PriB, PriC, and DnaT proteins mediate three pathways for Replication Restart called PriA-PriB, PriA-PriC, and PriC. PriA is crucial for two of the three pathways. Its absence leads to slow growth, high basal levels of SOS expression, poorly partitioning nucleoids, UV sensitivity, and recombination deficiency. PriA has ATPase and helicase activities and interacts with PriB, DnaT, and single-stranded DNA-binding protein (SSB). priA300 (K230R) and priA301 (C479Y) have no phenotype as single mutants, but each phenocopy a priA-null mutant combined with ∆priB. This suggested that the two priA mutations affected the helicase activity that is required for the PriA-PriC pathway. To further test this, the biochemical activities of purified PriA300 and PriA301 were examined. As expected, PriA300 lacks ATPase and helicase activities but retains the ability to interact with PriB. PriA301, however, retains significant PriB-stimulated helicase activity even though PriA301 interactions with PriB and DNA are weakened. A PriA300,301 variant retains only the ability to interact with DNA in vitro and phenocopies the priA-null phenotype in vivo. This suggests that there are two biochemically and genetically distinct PriA-PriB pathways. One uses PriB-stimulated helicase activity to free a region of ssDNA and the other uses helicase-independent remodeling activity.

摘要

在大肠杆菌中，PriA、PriB、PriC 和 DnaT 蛋白介导三种称为 PriA-PriB、PriA-PriC 和 PriC 的复制重启动途径。PriA 对其中两种途径至关重要。它的缺失会导致生长缓慢、SOS 表达基础水平高、核小体分配不良、对 UV 敏感和重组缺陷。PriA 具有 ATP 酶和解旋酶活性，并与 PriB、DnaT 和单链 DNA 结合蛋白 (SSB) 相互作用。priA300 (K230R) 和 priA301 (C479Y) 作为单突变体没有表型，但每个突变体都表型类似于 priA 缺失突变体与 ∆priB 的组合。这表明这两种 priA 突变影响了 PriA-PriC 途径所需的解旋酶活性。为了进一步验证这一点，纯化的 PriA300 和 PriA301 的生化活性进行了检测。正如预期的那样，PriA300 缺乏 ATP 酶和解旋酶活性，但保留了与 PriB 相互作用的能力。然而，PriA301 保留了显著的 PriB 刺激的解旋酶活性，尽管 PriA301 与 PriB 和 DNA 的相互作用减弱。PriA300,301 变体仅保留体外与 DNA 相互作用的能力，并且体内表型类似于 priA 缺失表型。这表明存在两种生化和遗传上不同的 PriA-PriB 途径。一种途径使用 PriB 刺激的解旋酶活性来释放 ssDNA 的区域，另一种途径使用解旋酶非依赖性重塑活性。

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