大肠杆菌中用于复制重启的DnaT n端结构域的寡聚状态

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-09-01 DOI:10.1016/j.bbapap.2023.140929
Shogo Inoue , Yohei Ikeda , Saki Fujiyama , Tadashi Ueda , Yoshito Abe
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引用次数: 0

摘要

当DNA发生化学或物理损伤时,DNA复制停止。修复基因组DNA和重新加载复制解旋酶是重启DNA复制的关键步骤。大肠杆菌原体是负责重新加载复制解旋酶DnaB的蛋白质和DNA的复合体。DnaT是一种在原体复合体中发现的蛋白质,包含两个功能结构域。C末端结构域(89–179)与单链DNA形成寡聚复合物。尽管N-末端结构域(1-88)形成低聚物,但负责这种低聚物结构的特定残基尚未确定。在本研究中,我们提出DnaT的N-末端结构域基于其一级序列具有二聚抗毒素结构。基于所提出的模型,我们通过定点突变确认了DnaT N端结构域中的低聚位点。发现位于二聚体界面的定点突变体,即Phe42、Tyr43、Leu50、Leu53和Leu54的分子量和热力学稳定性低于野生型。此外,与野生型DnaT相比,我们观察到V10S和F35S突变体的分子量降低。V10S突变体的NMR分析表明,DnaT的N-末端结构域的二级结构与所提出的模型一致。此外,我们已经证明,由DnaT的N-末端结构域形成的低聚物的稳定性对其功能至关重要。基于这些发现,我们提出DnaT寡聚物在大肠杆菌中的复制重启中起作用。
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Oligomeric state of the N-terminal domain of DnaT for replication restart in Escherichia coli

DNA replication stops when chemical or physical damage occurs to the DNA. Repairing genomic DNA and reloading the replication helicase are crucial steps for restarting DNA replication. The Escherichia coli primosome is a complex of proteins and DNA responsible for reloading the replication helicase DnaB. DnaT, a protein found in the primosome complex, contains two functional domains. The C-terminal domain (89–179) forms an oligomeric complex with single-stranded DNA. Although the N-terminal domain (1–88) forms an oligomer, the specific residues responsible for this oligomeric structure have not yet been identified.

In this study, we proposed that the N-terminal domain of DnaT has a dimeric antitoxin structure based on its primary sequence. Based on the proposed model, we confirmed the site of oligomerization in the N-terminal domain of DnaT through site-directed mutagenesis. The molecular masses and thermodynamic stabilities of the site-directed mutants located at the dimer interface, namely Phe42, Tyr43, Leu50, Leu53, and Leu54, were found to be lower than those of the wild-type. Moreover, we observed a decrease in the molecular masses of the V10S and F35S mutants compared to the wild-type DnaT. NMR analysis of the V10S mutant revealed that the secondary structure of the N-terminal domain of DnaT was consistent with the proposed model. Additionally, we have demonstrated that the stability of the oligomer formed by the N-terminal domain of DnaT is crucial for its function. Based on these findings, we propose that the DnaT oligomer plays a role in replication restart in Escherichia coli.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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