从小天花病毒拓扑异构酶-DNA 转变态模拟物的结构中得到的认识。
Insights from the structure of a smallpox virus topoisomerase-DNA transition state mimic.
机构信息
Department of Biochemistry and Biophysics and Howard Hughes Medical Institute, University of Pennsylvania School of Medicine, Philadelphia, PA 19104, USA.
出版信息
Structure. 2010 Jan 13;18(1):127-37. doi: 10.1016/j.str.2009.10.020.
Abstract
Poxviruses encode their own type IB topoisomerases (TopIBs), which release superhelical tension generated by replication and transcription of their genomes. To investigate the reaction catalyzed by viral TopIBs, we have determined the structure of a variola virus topoisomerase-DNA complex trapped as a vanadate transition state mimic. The structure reveals how the viral TopIB enzymes are likely to position the DNA duplex for ligation following relaxation of supercoils and identifies the sources of friction observed in single-molecule experiments that argue against free rotation. The structure also identifies a conformational change in the leaving group sugar that must occur prior to cleavage and reveals a mechanism for promoting ligation following relaxation of supercoils that involves an Asp-minor groove interaction. Overall, the new structural data support a common catalytic mechanism for the TopIB superfamily but indicate distinct methods for controlling duplex rotation in the small versus large enzyme subfamilies.
摘要
痘病毒编码自身的 I 型拓扑异构酶(TopIBs),该酶可以释放基因组复制和转录产生的超螺旋张力。为了研究病毒 TopIB 催化的反应,我们通过捕获焦磷酸钒作为钒酸盐过渡态类似物,解析了天花病毒拓扑异构酶-DNA 复合物的结构。该结构揭示了病毒 TopIB 酶如何在松弛超螺旋后将 DNA 双链定位进行连接,并确定了单分子实验中观察到的摩擦力的来源,这些摩擦力表明双链不能自由旋转。该结构还鉴定了在切割之前离开基团糖的构象变化,并揭示了在松弛超螺旋后促进连接的机制,该机制涉及天冬氨酸-小沟相互作用。总的来说,新的结构数据支持 TopIB 超家族的共同催化机制,但表明在小和大酶亚家族中控制双链旋转的方法不同。
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