Matson S W, Bean D W, George J W
Department of Biology, University of North Carolina at Chapel Hill 27599.
Bioessays. 1994 Jan;16(1):13-22. doi: 10.1002/bies.950160103.
DNA helicases catalyze the disruption of the hydrogen bonds that hold the two strands of double-stranded DNA together. This energy-requiring unwinding reaction results in the formation of the single-stranded DNA required as a template or reaction intermediate in DNA replication, repair and recombination. A combination of biochemical and genetic studies have been used to probe and define the roles of the multiple DNA helicases found in E. coli. This work and similar efforts in eukaryotic cells, although far from complete, have established that DNA helicases are essential components of the machinery that interacts with the DNA molecule.
DNA解旋酶催化双链DNA两条链之间氢键的断裂。这种需要能量的解旋反应导致形成单链DNA,它是DNA复制、修复和重组所需的模板或反应中间体。生物化学和遗传学研究相结合,已被用于探究和定义大肠杆菌中多种DNA解旋酶的作用。尽管在真核细胞中的这项工作及类似努力远未完成,但已证实DNA解旋酶是与DNA分子相互作用的机制的重要组成部分。