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靶向染色体大肠杆菌:dnaB 外表面残基调节 DNA 解旋酶行为以维持基因组稳定性和生物体适应性。

Targeted chromosomal Escherichia coli:dnaB exterior surface residues regulate DNA helicase behavior to maintain genomic stability and organismal fitness.

机构信息

Department of Chemistry and Biochemistry, Baylor University, Waco, Texas, United States of America.

Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, Texas, United States of America.

出版信息

PLoS Genet. 2021 Nov 12;17(11):e1009886. doi: 10.1371/journal.pgen.1009886. eCollection 2021 Nov.

DOI:10.1371/journal.pgen.1009886
PMID:34767550
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8612530/
Abstract

Helicase regulation involves modulation of unwinding speed to maintain coordination of DNA replication fork activities and is vital for replisome progression. Currently, mechanisms for helicase regulation that involve interactions with both DNA strands through a steric exclusion and wrapping (SEW) model and conformational shifts between dilated and constricted states have been examined in vitro. To better understand the mechanism and cellular impact of helicase regulation, we used CRISPR-Cas9 genome editing to study four previously identified SEW-deficient mutants of the bacterial replicative helicase DnaB. We discovered that these four SEW mutations stabilize constricted states, with more fully constricted mutants having a generally greater impact on genomic stress, suggesting a dynamic model for helicase regulation that involves both excluded strand interactions and conformational states. These dnaB mutations result in increased chromosome complexities, less stable genomes, and ultimately less viable and fit strains. Specifically, dnaB:mut strains present with increased mutational frequencies without significantly inducing SOS, consistent with leaving single-strand gaps in the genome during replication that are subsequently filled with lower fidelity. This work explores the genomic impacts of helicase dysregulation in vivo, supporting a combined dynamic regulatory mechanism involving a spectrum of DnaB conformational changes and relates current mechanistic understanding to functional helicase behavior at the replication fork.

摘要

解旋酶的调控涉及解旋速度的调节,以维持 DNA 复制叉活动的协调,这对复制体的进展至关重要。目前,已经在体外研究了通过空间排斥和缠绕(SEW)模型以及在扩张和收缩状态之间的构象转变与两条 DNA 链相互作用的解旋酶调控机制。为了更好地理解解旋酶调控的机制和细胞影响,我们使用 CRISPR-Cas9 基因组编辑来研究四种先前鉴定的细菌复制解旋酶 DnaB 的 SEW 缺陷突变体。我们发现,这四种 SEW 突变稳定了收缩状态,更完全的收缩突变体对基因组应激的影响更大,这表明解旋酶调控涉及排斥链相互作用和构象状态的动态模型。这些 dnaB 突变导致染色体复杂度增加,基因组稳定性降低,最终导致菌株的生存能力和适应性降低。具体来说,dnaB:mut 菌株的突变频率增加,但没有显著诱导 SOS,这与在复制过程中基因组中留下单链缺口一致,随后这些缺口被低保真度填充。这项工作在体内探索了解旋酶失调的基因组影响,支持了一种涉及 DnaB 构象变化谱的综合动态调控机制,并将当前的机制理解与复制叉处的功能性解旋酶行为联系起来。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2ca5/8612530/357e01289f46/pgen.1009886.g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2ca5/8612530/357e01289f46/pgen.1009886.g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2ca5/8612530/a2d9743ff064/pgen.1009886.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2ca5/8612530/99c7ca53ad48/pgen.1009886.g002.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2ca5/8612530/357e01289f46/pgen.1009886.g009.jpg

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