Proton diffusion and hydrolysis enzymatic reaction in 100 nm scale biomimetic nanochannels

Liquids in 10-100 nm spaces are expected to play an important role in biological systems. However, the liquid properties and their influence on biological activity have been obscured due to the difficulty in nanoscale measurements, either in vivo or in vitro. In this study, an in vitro analytical platform for biological systems is established. The nanochannels were modified with lipid bilayers, thereby serving as a model for biological confinement, e.g., the intercellular or intracellular space. As a representative property, the proton diffusion coefficient was measured by a nanofluidic circuit using fluorescein as a pH probe. It was verified that proton conduction was enhanced for channel widths less than 330 nm. A proton-related enzymatic reaction, the hydrolysis reaction, was also investigated, and a large confinement effect was observed. Published under an exclusive license by AIP Publishing.

Automated summary

An in vitro analytical platform for biological systems was established, with nanochannels serving as a model for biological confinement. Proton conduction was enhanced for channel widths less than 330 nm, and a large confinement effect was observed.