Robertson Adam B, Pattishall Steven R, Gibbons Erin A, Matson Steven W
Department of Biology, University of North Carolina at Chapel Hill, NC 27599, USA.
J Biol Chem. 2006 Jul 21;281(29):19949-59. doi: 10.1074/jbc.M601604200. Epub 2006 May 10.
Methyl-directed mismatch repair is a coordinated process that ensures replication fidelity and genome integrity by resolving base pair mismatches and insertion/deletion loops. This post-replicative event involves the activities of several proteins, many of which appear to be regulated by MutL. MutL interacts with and modulates the activities of MutS, MutH, UvrD, and perhaps other proteins. The purified protein catalyzes a slow ATP hydrolysis reaction that is essential for its role in mismatch repair. However, the role of the ATP hydrolysis reaction is not understood. We have begun to address this issue using two point mutants: MutL-E29A, which binds nucleotide but does not catalyze ATP hydrolysis, and MutL-D58A, which does not bind nucleotide. As expected, both mutants failed to complement the loss of MutL in genetic assays. Purified MutL-E29A protein interacted with MutS and stimulated the MutH-catalyzed nicking reaction in a mismatch-dependent manner. Importantly, MutL-E29A stimulated the loading of UvrD on model substrates. In fact, stimulation of UvrD-catalyzed unwinding was more robust with MutL-E29A than the wild-type protein. MutL-D58A, on the other hand, did not interact with MutS, stimulate MutH-catalyzed nicking, or stimulate the loading of UvrD. We conclude that ATP-bound MutL is required for the incision steps associated with mismatch repair and that ATP hydrolysis by MutL is required for a step in the mismatch repair pathway subsequent to the loading of UvrD and may serve to regulate helicase loading.
甲基化导向的错配修复是一个协调过程,通过解决碱基对错配和插入/缺失环来确保复制保真度和基因组完整性。这个复制后事件涉及多种蛋白质的活性,其中许多似乎受MutL调控。MutL与MutS、MutH、UvrD以及可能的其他蛋白质相互作用并调节其活性。纯化的蛋白质催化一个缓慢的ATP水解反应,这对其在错配修复中的作用至关重要。然而,ATP水解反应的作用尚不清楚。我们已开始使用两个点突变体来解决这个问题:MutL-E29A,它能结合核苷酸但不催化ATP水解;以及MutL-D58A,它不结合核苷酸。正如预期的那样,在遗传分析中这两个突变体都不能弥补MutL的缺失。纯化的MutL-E29A蛋白与MutS相互作用,并以错配依赖的方式刺激MutH催化的切口反应。重要的是,MutL-E29A刺激了UvrD在模型底物上的装载。事实上,与野生型蛋白相比,MutL-E29A对UvrD催化的解旋的刺激更强。另一方面,MutL-D58A不与MutS相互作用,不刺激MutH催化的切口反应,也不刺激UvrD的装载。我们得出结论,与错配修复相关的切口步骤需要ATP结合的MutL,并且MutL的ATP水解是UvrD装载后错配修复途径中一个步骤所必需的,可能用于调节解旋酶的装载。
