DNA Topoisomerases: Structure, Function, and Mechanism

DNA超螺旋 拓扑异构酶 DNA 生物 DNA钳 DNA复制 HMG盒 生物化学 真核细胞DNA复制 细菌圆形染色体 DNA修复 细胞生物学 转录因子 DNA结合蛋白 基因 逆转录酶 核糖核酸
作者
James J. Champoux
出处
期刊:Annual Review of Biochemistry [Annual Reviews]
卷期号:70 (1): 369-413 被引量:2671
标识
DOI:10.1146/annurev.biochem.70.1.369
摘要

▪ Abstract DNA topoisomerases solve the topological problems associated with DNA replication, transcription, recombination, and chromatin remodeling by introducing temporary single- or double-strand breaks in the DNA. In addition, these enzymes fine-tune the steady-state level of DNA supercoiling both to facilitate protein interactions with the DNA and to prevent excessive supercoiling that is deleterious. In recent years, the crystal structures of a number of topoisomerase fragments, representing nearly all the known classes of enzymes, have been solved. These structures provide remarkable insights into the mechanisms of these enzymes and complement previous conclusions based on biochemical analyses. Surprisingly, despite little or no sequence homology, both type IA and type IIA topoisomerases from prokaryotes and the type IIA enzymes from eukaryotes share structural folds that appear to reflect functional motifs within critical regions of the enzymes. The type IB enzymes are structurally distinct from all other known topoisomerases but are similar to a class of enzymes referred to as tyrosine recombinases. The structural themes common to all topoisomerases include hinged clamps that open and close to bind DNA, the presence of DNA binding cavities for temporary storage of DNA segments, and the coupling of protein conformational changes to DNA rotation or DNA movement. For the type II topoisomerases, the binding and hydrolysis of ATP further modulate conformational changes in the enzymes to effect changes in DNA topology.
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