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在MutY催化的G:A和8-氧代-G:A DNA错配水解反应中,腺嘌呤释放速度很快。

Adenine release is fast in MutY-catalyzed hydrolysis of G:A and 8-Oxo-G:A DNA mismatches.

作者信息

McCann Joe A B, Berti Paul J

机构信息

Department of Biochemistry, McMaster University, Hamilton, Ontario L8S 4M1, Canada.

出版信息

J Biol Chem. 2003 Aug 8;278(32):29587-92. doi: 10.1074/jbc.M212474200. Epub 2003 May 24.

DOI:10.1074/jbc.M212474200
PMID:12766151
Abstract

MutY, a DNA repair enzyme, is unusual in that it binds exceedingly tightly to its products after the chemical steps of catalysis. Until now it was not known whether the product being released in the rate-limiting step was DNA, adenine, or both. MutY hydrolyzes adenine from 8-oxo-G:A (OG:A) base pair mismatches as the first step in the base excision repair pathway, as well as from G:A mismatches. The products are adenine and DNA containing an apurinic (AP) site. Tight product binding may have a physiological role in preventing further damage at the OG:AP site. We developed a rate assay using [8-14C]adenine in OG:A or G:A mismatches that distinguishes between adenine hydrolysis and adenine release. [8-14C]Adenine was released quickly from the MutY.AP-DNA.[8-14C]adenine complex, with a rate constant greater than 5 min-1. This was much faster than the rate-limiting step, at 0.006-0.015 min-1. Gel retardation experiments showed that AP-DNA release was very slow, consistent with it being the rate-limiting step. Thus, the kinetic mechanism involves fast adenine release after hydrolysis followed by rate-limiting AP-DNA release. Adenine appears to be buried deep in the protein.DNA interface, but there is enough flexibility or open space for it to dissociate from the MutY.APDNA.adenine complex. These results have implications for the catalytic mechanism of MutY.

摘要

MutY是一种DNA修复酶,其不同寻常之处在于,在催化的化学步骤之后,它与其产物紧密结合。到目前为止,尚不清楚在限速步骤中释放的产物是DNA、腺嘌呤还是两者皆有。MutY作为碱基切除修复途径的第一步,会从8-氧代鸟嘌呤:腺嘌呤(OG:A)碱基对错配以及G:A错配中水解腺嘌呤。产物是腺嘌呤和含有脱嘌呤(AP)位点的DNA。紧密的产物结合可能在防止OG:AP位点进一步损伤方面具有生理作用。我们开发了一种速率测定法,使用[8-14C]腺嘌呤存在于OG:A或G:A错配中,以区分腺嘌呤水解和腺嘌呤释放。[8-14C]腺嘌呤从MutY.AP-DNA.[8-14C]腺嘌呤复合物中快速释放,速率常数大于5分钟-1。这比限速步骤快得多,限速步骤的速率为0.006 - 0.015分钟-1。凝胶阻滞实验表明,AP-DNA释放非常缓慢,这与它是限速步骤一致。因此,动力学机制涉及水解后腺嘌呤的快速释放,随后是限速的AP-DNA释放。腺嘌呤似乎深埋在蛋白质-DNA界面中,但仍有足够的灵活性或开放空间使其从MutY.APDNA.腺嘌呤复合物中解离。这些结果对MutY的催化机制具有启示意义。

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