Biomotor is not a Heat Engine

Biophysical reviews and letters Pub Date : 2022-08-10 DOI:10.1142/s1793048022310014

Yao-Gen Shu, Z. Ou-Yang

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Abstract

ATP synthase (FoF1-ATPase) is the model rotary molecular motor with three sites of ATP syntheses/hydrolyses in the “stator” of F1. The coupling between chemical progress and mechanical one is tight, and both progresses are reversible. Thus, the mechanochemical reversibility of FoF1-ATPase may resemble that of a heat engine. Single-molecule experiment has demonstrated that the efficiency of rotary motor is nearly 100%. However, it is impossible for a heat engine to achieve such high efficiency. On the other hand, kinesin is the model linear biomotor with only two sites of ATP hydrolyses located in the two heads, respectively, while its efficiency is just [Formula: see text]. Myosin V is another processive linear motor with nearly [Formula: see text] efficiency as well. However, the chemical progress of processive linear motors with two heads is irreversible. That is, if they walk backward in hand over hand along with a track by an external force, the energy molecule ATP is not synthesized, but consumed yet. This chemical irreversibility excludes the possibility that kinesin/myosin V can be treated energetically as a heat engine. The most intriguing fact is why the efficiency of a processive linear motor with two sites is just [Formula: see text] of that of a processive rotary motor with three sites.

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生物电机不是热机

ATP合成酶（FoF1-ATP酶）是一种模式旋转分子马达，在F1的“定子”中有三个ATP合成/水解位点。化学进展和机械进展之间的耦合是紧密的，并且两者都是可逆的。因此，FoF1-ATP酶的机械化学可逆性可能类似于热机。单分子实验表明，旋转电机的效率接近100%。然而，热力发动机不可能实现如此高的效率。另一方面，驱动蛋白是一种模型线性生物马达，只有两个ATP水解位点分别位于两个头中，而其效率仅为[公式：见正文]。Myosin V是另一种效率接近[公式：见正文]的加工线性电机。然而，双头加工线性电机的化学进步是不可逆转的。也就是说，如果他们在外力的作用下沿着轨道手挽手向后走，能量分子ATP不会合成，而是被消耗掉。这种化学不可逆性排除了驱动蛋白/肌球蛋白V可以作为热机进行能量处理的可能性。最有趣的事实是，为什么具有两个位置的加工线性电机的效率只是具有三个位置的处理旋转电机的效率的[公式：见正文]。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biophysical reviews and letters

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