BLM 解旋酶核心的 DNA 解旋动力学机制及其低延伸性的分子基础。

Kinetic mechanism of DNA unwinding by the BLM helicase core and molecular basis for its low processivity.

机构信息

Laboratory of Soft Matter Physics, Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China.

出版信息

Biochemistry. 2010 Feb 2;49(4):656-68. doi: 10.1021/bi901459c.

DOI:10.1021/bi901459c

PMID:20028084

Abstract

Bloom's syndrome (BS) is a rare human autosomal recessive disorder characterized by a strong predisposition to a wide range of cancers commonly affecting the general population. Understanding the functioning mechanism of the BLM protein may provide the opportunity to develop new effective therapy strategies. In this work, we studied the DNA unwinding kinetic mechanism of the helicase core of the BLM protein using various stopped-flow assays. We show that the helicase core of BLM unwinds duplex DNA as monomers even under conditions strongly favoring oligomerization. An unwinding rate of approximately 20 steps per second and a step size of 1 bp have been determined. We have observed that the helicase has a very low processivity. From dissociation and inhibition experiments, we have found that during its ATP hydrolysis cycle in DNA unwinding the helicase tends to dissociate from the DNA substrate in the ADP state. The experimental results imply that the BLM helicase core may unwind duplex DNA in an inchworm manner.

摘要

布卢姆综合征（BS）是一种罕见的人类常染色体隐性疾病，其特征是对常见于普通人群的多种癌症具有强烈的易感性。了解 BLM 蛋白的功能机制可能为开发新的有效治疗策略提供机会。在这项工作中，我们使用各种停流测定法研究了 BLM 蛋白解旋酶核心的 DNA 解旋动力学机制。我们表明，即使在强烈有利于寡聚化的条件下，BLM 解旋酶核心也以单体形式解开双链 DNA。已经确定了大约每秒 20 个步骤的解旋速率和 1 bp 的步长。我们已经观察到该解旋酶的效率非常低。从解聚和抑制实验中，我们发现，在其 DNA 解旋的 ATP 水解循环过程中，解旋酶在 ADP 状态下倾向于从 DNA 底物上解离。实验结果表明，BLM 解旋酶核心可能以尺蠖的方式解开双链 DNA。

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BLM 解旋酶核心的 DNA 解旋动力学机制及其低延伸性的分子基础。

Kinetic mechanism of DNA unwinding by the BLM helicase core and molecular basis for its low processivity.

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