DiaA的动态变化与导致解旋酶装载的起始原点复合物的变化相关联。

DiaA dynamics are coupled with changes in initial origin complexes leading to helicase loading.

作者信息

Keyamura Kenji, Abe Yoshito, Higashi Masahiro, Ueda Tadashi, Katayama Tsutomu

机构信息

Department of Molecular Biology, Graduate School of Pharmaceutical Sciences, Kyushu University, Fukuoka 812-8582, Japan.

出版信息

J Biol Chem. 2009 Sep 11;284(37):25038-50. doi: 10.1074/jbc.M109.002717. Epub 2009 Jul 24.

DOI:10.1074/jbc.M109.002717

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2757208/

Abstract

Chromosomal replication initiation requires the regulated formation of dynamic higher order complexes. Escherichia coli ATP-DnaA forms a specific multimer on oriC, resulting in DNA unwinding and DnaB helicase loading. DiaA, a DnaA-binding protein, directly stimulates the formation of ATP-DnaA multimers on oriC and ensures timely replication initiation. In this study, DnaA Phe-46 was identified as the crucial DiaA-binding site required for DiaA-stimulated ATP-DnaA assembly on oriC. Moreover, we show that DiaA stimulation requires only a subgroup of DnaA molecules binding to oriC, that DnaA Phe-46 is also important in the loading of DnaB helicase onto the oriC-DnaA complexes, and that this process also requires only a subgroup of DnaA molecules. Despite the use of only a DnaA subgroup, DiaA inhibited DnaB loading on oriC-DnaA complexes, suggesting that DiaA and DnaB bind to a common DnaA subgroup. A cellular factor can relieve the DiaA inhibition, allowing DnaB loading. Consistently, DnaA F46A caused retarded initiations in vivo in a DiaA-independent manner. It is therefore likely that DiaA dynamics are crucial in the regulated sequential progress of DnaA assembly and DnaB loading. We accordingly propose a model for dynamic structural changes of initial oriC complexes loading DiaA or DnaB helicase.

摘要

染色体复制起始需要动态高阶复合物的有序形成。大肠杆菌ATP-DnaA在oriC上形成特定的多聚体，导致DNA解旋和DnaB解旋酶加载。DiaA是一种DnaA结合蛋白，直接刺激oriC上ATP-DnaA多聚体的形成，并确保及时的复制起始。在本研究中，DnaA的苯丙氨酸-46被确定为DiaA刺激的oriC上ATP-DnaA组装所需的关键DiaA结合位点。此外，我们表明DiaA刺激仅需要与oriC结合的DnaA分子亚组，DnaA的苯丙氨酸-46在将DnaB解旋酶加载到oriC-DnaA复合物上也很重要，并且该过程也仅需要DnaA分子亚组。尽管仅使用了DnaA亚组，但DiaA抑制了DnaB加载到oriC-DnaA复合物上，这表明DiaA和DnaB与共同的DnaA亚组结合。一种细胞因子可以缓解DiaA的抑制作用，从而允许DnaB加载。一致地，DnaA F46A以不依赖DiaA的方式在体内导致起始延迟。因此，DiaA的动态变化可能在DnaA组装和DnaB加载的有序顺序进展中至关重要。我们据此提出了一个加载DiaA或DnaB解旋酶的初始oriC复合物动态结构变化的模型。

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