三磷酸腺苷通过能量棘轮机制驱动催化腙的形成。

ATP Drives the Formation of a Catalytic Hydrazone through an Energy Ratchet Mechanism.

作者信息

Marchetti Tommaso, Frezzato Diego, Gabrielli Luca, Prins Leonard J

机构信息

Department of Chemical Sciences, University of Padua, Via Marzolo1, 35131, Padua, Italy.

出版信息

Angew Chem Int Ed Engl. 2023 Aug 14;62(33):e202307530. doi: 10.1002/anie.202307530. Epub 2023 Jul 10.

DOI:10.1002/anie.202307530

PMID:37367487

Abstract

An energy ratchet mechanism is exploited for the synthesis of a molecule. In the presence of adenosine triphosphate (ATP), hydrazone-bond formation between an aldehyde and hydrazide is accelerated and the composition at thermodynamic equilibrium is shifted towards the hydrazone. Enzymatic hydrolysis of ATP installs a kinetically stable state, at which hydrazone is present at a higher concentration compared to the composition at thermodynamic equilibrium in the presence of the degradation products of ATP. It is shown that the kinetic state has an enhanced catalytic activity in the hydrolysis of an RNA-model compound.

摘要

一种能量棘轮机制被用于分子的合成。在三磷酸腺苷（ATP）存在的情况下，醛与酰肼之间腙键的形成加速，且热力学平衡时的组成向腙方向移动。ATP的酶促水解建立了一种动力学稳定状态，在此状态下，与存在ATP降解产物时热力学平衡的组成相比，腙以更高的浓度存在。结果表明，该动力学状态在RNA模型化合物的水解中具有增强的催化活性。

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三磷酸腺苷通过能量棘轮机制驱动催化腙的形成。

ATP Drives the Formation of a Catalytic Hydrazone through an Energy Ratchet Mechanism.

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