核酶催化变构相互作用的表达机制。

M Araki, Y Okuno, Y Sugiura
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引用次数: 0

摘要

利用变构核酶研究了底物结合在核酶催化速率过程中的协同调节作用。对底物长度的高灵敏度归因于催化核心折叠,这是由于底物结合的能量贡献。效应分子(FMN)的一个作用是通过稳定适体结构域来促进核心折叠。另一个作用是通过干扰速率过程中的中间态来抑制裂解化学。这两类动力学调节的总效应决定了协同相互作用对催化反应的底物依赖性。调控类型与底物结合之间的适当相关性是动力学过程中协同相互作用的原因。
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Expression mechanism of the allosteric interactions in a ribozyme catalysis.

The contribution of substrate binding to cooperative regulation in the rate process of ribozyme catalysis has been investigated using allosteric ribozymes. The high sensitivity to the substrate lengths is attributed to the catalytic core folding which proceeds due to the energetic contribution of the substrate binding. One role of the effector (FMN) is the promotion of the core folding through the stabilization of the aptamer domain. Another role is the inhibition of the cleavage chemistry by perturbing the intermediate state in the rate process. The total effects of these two types of kinetic regulation determine the substrate dependency of the cooperative interaction on the catalytic reaction. An adequate correlation between the type of regulation and the substrate binding is responsible for the cooperative interaction in the kinetic process.

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