'Kind and Gentle' Molecular Machine Could Operate at Near-Equilibrium

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Illustration of the possible transitions for a catenane structure that consists of one large ring with three stations for two small rings. The two small rings move around the large ring to bind at a station. Each binding state is favored by a differe ...
Illustration of the possible transitions for a catenane structure that consists of one large ring with three stations for two small rings. The two small rings move around the large ring to bind at a station. Each binding state is favored by a different energetic condition, as indicated. ©2007 PNAS. Image credit: R. Dean Astumian.

Molecular machines – tiny machines made of molecules that do mechanical work – are usually thought to operate in a state of non-equilibrium. This makes sense, considering that macro-sized machines operate at non-equilibrium, requiring an additional force to move. On the other hand, equilibrium implies that forces cancel each other out, resulting in an unchanging system, often at rest.


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