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喜树碱诱导的人拓扑异构酶I介导的DNA切割的DNA序列选择性

DNA sequence selectivity of human topoisomerase I-mediated DNA cleavage induced by camptothecin.

作者信息

Punchihewa Chandanamali, Carver Megan, Yang Danzhou

机构信息

College of Pharmacy, The University of Arizona, 1703 E. Mabel Street, Tucson, AZ 85721, USA.

出版信息

Protein Sci. 2009 Jun;18(6):1326-31. doi: 10.1002/pro.138.

DOI:10.1002/pro.138

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2774443/

Abstract

In probing the mechanism of inhibition of hypoxia inducible factor (HIF-1) by campothecins, we investigated the ability of human topoisomerase I to bind and cleave HIF-1 response element (HRE), which contains the known camptothecin-mediated topoisomerase I cleavage site 5'-TG. We observed that the selection of 5'-TG by human topoisomerase I and topotecan depends to a large extent on the specific flanking sequences, and that the presence of a G at the -2 position (where cleavage occurs between -1 and +1) prevents the HRE site from being a preferred site for such cleavage. Furthermore, the presence of -2 T/A can induce the cleavage at a less preferred TC or TA site. However, in the absence of a more preferred site, the HRE site is shown to be cleaved by human topoisomerase I in the presence of topotecan. Thus, it is implied that the -2 base has a significant influence on the selection of the camptothecin-mediated Topo I cleavage site, which can overcome the preference for +1G. While the cleavage site recognition has been known to be based on the concerted effect of several bases spanning the cleavage site, such a determining effect of an individual base has not been previously recognized. A possible base-specific interaction between DNA and topoisomerase I may be responsible for this sequence selectivity.

摘要

在探究喜树碱抑制缺氧诱导因子（HIF-1）的机制时，我们研究了人类拓扑异构酶I结合并切割HIF-1反应元件（HRE）的能力，该元件包含已知的喜树碱介导的拓扑异构酶I切割位点5'-TG。我们观察到，人类拓扑异构酶I和拓扑替康对5'-TG的选择在很大程度上取决于特定的侧翼序列，并且在-2位置（切割发生在-1和+1之间）存在G会阻止HRE位点成为这种切割的优选位点。此外，-2 T/A的存在可诱导在较不优选的TC或TA位点发生切割。然而，在没有更优选位点的情况下，在拓扑替康存在时，HRE位点显示可被人类拓扑异构酶I切割。因此，这意味着-2碱基对喜树碱介导的拓扑异构酶I切割位点的选择有重大影响，这可以克服对+1G的偏好。虽然已知切割位点的识别基于跨越切割位点的几个碱基的协同作用，但单个碱基的这种决定性作用以前尚未被认识到。DNA与拓扑异构酶I之间可能的碱基特异性相互作用可能是这种序列选择性的原因。