An additional proofreader contributes to DNA replication fidelity in mycobacteria.

IF 11.3 1区 化学 Q1 CHEMISTRY, PHYSICAL ACS Catalysis Pub Date : 2024-08-20 Epub Date: 2024-08-14 DOI:10.1073/pnas.2322938121
Ming-Zhi Deng, Qingyun Liu, Shu-Jun Cui, Yi-Xin Wang, Guoliang Zhu, Han Fu, Mingyu Gan, Yuan-Yuan Xu, Xia Cai, Sheng Wang, Wei Sha, Guo-Ping Zhao, Sarah M Fortune, Liang-Dong Lyu
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Abstract

The removal of mis-incorporated nucleotides by proofreading activity ensures DNA replication fidelity. Whereas the ε-exonuclease DnaQ is a well-established proofreader in the model organism Escherichia coli, it has been shown that proofreading in a majority of bacteria relies on the polymerase and histidinol phosphatase (PHP) domain of replicative polymerase, despite the presence of a DnaQ homolog that is structurally and functionally distinct from E. coli DnaQ. However, the biological functions of this type of noncanonical DnaQ remain unclear. Here, we provide independent evidence that noncanonical DnaQ functions as an additional proofreader for mycobacteria. Using the mutation accumulation assay in combination with whole-genome sequencing, we showed that depletion of DnaQ in Mycolicibacterium smegmatis leads to an increased mutation rate, resulting in AT-biased mutagenesis and increased insertions/deletions in the homopolymer tract. Our results showed that mycobacterial DnaQ binds to the β clamp and functions synergistically with the PHP domain proofreader to correct replication errors. Furthermore, the loss of dnaQ results in replication fork dysfunction, leading to attenuated growth and increased mutagenesis on subinhibitory fluoroquinolones potentially due to increased vulnerability to fork collapse. By analyzing the sequence polymorphism of dnaQ in clinical isolates of Mycobacterium tuberculosis (Mtb), we demonstrated that a naturally evolved DnaQ variant prevalent in Mtb lineage 4.3 may enable hypermutability and is associated with drug resistance. These results establish a coproofreading model and suggest a division of labor between DnaQ and PHP domain proofreader. This study also provides real-world evidence that a mutator-driven evolutionary pathway may exist during the adaptation of Mtb.

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分枝杆菌中的另一个校对器有助于 DNA 复制的保真度。
通过校对活动去除错误结合的核苷酸可确保 DNA 复制的保真度。在模式生物大肠杆菌中,ε-核酸外切酶 DnaQ 是一种成熟的校对器,而在大多数细菌中,校对依赖于复制聚合酶的聚合酶和组氨醇磷酸酶(PHP)结构域,尽管存在一种在结构和功能上与大肠杆菌 DnaQ 不同的 DnaQ 同源物。然而,这类非典型 DnaQ 的生物学功能仍不清楚。在这里,我们提供了独立的证据,证明非典型 DnaQ 在分枝杆菌中发挥着额外的校对功能。我们利用突变累积试验结合全基因组测序,发现在烟曲霉分枝杆菌(Mycolicibacterium smegmatis)中耗尽 DnaQ 会导致突变率增加,从而导致 AT 偏向诱变和同源多聚物道中插入/缺失的增加。我们的研究结果表明,分枝杆菌的DnaQ与β钳夹结合,并与PHP结构域校对器协同校正复制错误。此外,dnaQ的缺失会导致复制叉功能障碍,从而导致生长减弱,并增加亚抑制氟喹诺酮类药物的诱变作用,这可能是由于复制叉崩溃的脆弱性增加所致。通过分析结核分枝杆菌(Mtb)临床分离株中 dnaQ 的序列多态性,我们证明了在 Mtb 家族 4.3 中流行的一种自然进化的 DnaQ 变异可能会导致高突变性,并与耐药性有关。这些结果建立了一个协同校对模型,并提出了 DnaQ 和 PHP 域校对者之间的分工。这项研究还提供了现实世界的证据,证明在 Mtb 的适应过程中可能存在突变体驱动的进化途径。
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来源期刊
ACS Catalysis
ACS Catalysis CHEMISTRY, PHYSICAL-
CiteScore
20.80
自引率
6.20%
发文量
1253
审稿时长
1.5 months
期刊介绍: ACS Catalysis is an esteemed journal that publishes original research in the fields of heterogeneous catalysis, molecular catalysis, and biocatalysis. It offers broad coverage across diverse areas such as life sciences, organometallics and synthesis, photochemistry and electrochemistry, drug discovery and synthesis, materials science, environmental protection, polymer discovery and synthesis, and energy and fuels. The scope of the journal is to showcase innovative work in various aspects of catalysis. This includes new reactions and novel synthetic approaches utilizing known catalysts, the discovery or modification of new catalysts, elucidation of catalytic mechanisms through cutting-edge investigations, practical enhancements of existing processes, as well as conceptual advances in the field. Contributions to ACS Catalysis can encompass both experimental and theoretical research focused on catalytic molecules, macromolecules, and materials that exhibit catalytic turnover.
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