Dillon Balthrop, Deepesh Sigdel, Chunfeng Mao, Yuk-Ching Tse-Dinh, Maria Mills
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引用次数: 0
摘要
IA 型拓扑异构酶通过链传递机制缓解 DNA 中的扭转应力,利用 DNA 中的应变驱动松弛。分枝杆菌属的IA型拓扑异构酶具有不同的C端结构域,这些结构域对成功的链通过至关重要。我们使用单分子磁镊观察了野生型分枝杆菌拓扑异构酶IA和两个C端截断突变体的超螺旋松弛。我们记录了每个截断突变体的不同行为。我们计算了 DNA 受力扭曲时储存的自由能,以研究蛋白质之间的差异。基于我们的研究结果,我们提出了一个修改过的链-通道循环模型。
Mycobacterial Topoisomerase I Energetically Suffers From C-Terminal Deletions
Type IA topoisomerases relieve torsional stress in DNA by a strand-passage mechanism, using the strain in the DNA to drive relaxation. The topoisomerase IAs of the Mycobacterium genus have distinct C-terminal domains which are crucial for successful strand-passage. We used single-molecule magnetic tweezers to observe supercoil relaxation by wild type Mycobacterium smegmatis topoisomerase IA and two C-terminal truncation mutants. We recorded distinct behaviors from each truncation mutant. We calculated the free energy stored in the DNA as it is twisted under force to examine the differences between the proteins. Based on our results, we propose a modified model of the strand-passage cycle.
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