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人拓扑异构酶I中单个苏氨酸718突变为丙氨酸对DNA松弛的影响:一项功能与分子动力学研究。

Effect on DNA relaxation of the single Thr718Ala mutation in human topoisomerase I: a functional and molecular dynamics study.

作者信息

Chillemi Giovanni, Fiorani Paola, Castelli Silvia, Bruselles Alessandro, Benedetti Piero, Desideri Alessandro

机构信息

CASPUR Interuniversities Consortium for Supercomputing Applications Via dei Tizii 6b, Rome 00185, Italy.

出版信息

Nucleic Acids Res. 2005 Jun 8;33(10):3339-50. doi: 10.1093/nar/gki642. Print 2005.

DOI:10.1093/nar/gki642
PMID:15944452
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1145191/
Abstract

The functional and dynamical properties of the human topoisomerase I Thr718Ala mutant have been compared to that of the wild-type enzyme using functional assays and molecular dynamics (MD) simulations. At physiological ionic strength, the cleavage and religation rates, evaluated on oligonucleotides containing the preferred topoisomerase I DNA sequence, are almost identical for the wild-type and the mutated enzymes, as is the cleavage/religation equilibrium. On the other hand, the Thr718Ala mutant shows a decreased efficiency in a DNA plasmid relaxation assay. The MD simulation, carried out on the enzyme complexed with its preferred DNA substrate, indicates that the mutant has a different dynamic behavior compared to the wild-type enzyme. Interestingly, no changes are observed in the proximity of the mutation site, whilst a different flexibility is detected in regions contacting the DNA scissile strand, such as the linker and the V-shaped alpha helices. Taken together, the functional and simulation results indicate a direct communication between the mutation site and regions located relatively far away, such as the linker domain, that with their altered flexibility confer a reduced DNA relaxation efficiency. These results provide evidence that the comprehension of the topoisomerase I dynamical properties are an important element in the understanding of its complex catalytic cycle.

摘要

利用功能测定和分子动力学(MD)模拟,将人类拓扑异构酶I Thr718Ala突变体的功能和动力学特性与野生型酶进行了比较。在生理离子强度下,对含有拓扑异构酶I优选DNA序列的寡核苷酸进行评估,野生型和突变型酶的切割和重新连接速率以及切割/重新连接平衡几乎相同。另一方面,Thr718Ala突变体在DNA质粒松弛测定中显示出效率降低。对与其优选DNA底物复合的酶进行的MD模拟表明,与野生型酶相比,突变体具有不同的动力学行为。有趣的是,在突变位点附近未观察到变化,而在与DNA可切割链接触的区域(如连接子和V形α螺旋)检测到不同的柔韧性。综合来看,功能和模拟结果表明突变位点与相对较远的区域(如连接子结构域)之间存在直接通信,这些区域柔韧性的改变导致DNA松弛效率降低。这些结果证明,理解拓扑异构酶I的动力学特性是理解其复杂催化循环的重要因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5256/1145191/145b73bc2898/gki642f8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5256/1145191/0ff69d7d490e/gki642f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5256/1145191/c0ce6cf50d93/gki642f2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5256/1145191/bb8d773f978a/gki642f3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5256/1145191/b7efc3fea475/gki642f4.jpg
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