Tamon Funakura scite author profile

Tamon Funakura

2Publications

3Citation Statements Received

93Citation Statements Given

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Chuo University

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Electronic fluctuation difference between trimethylamine N-oxide and tert-butyl alcohol in water

Kuroki

Uchino

Funakura

et al. 2022

Sci Rep

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Although small organic molecules in cells have been considered important to control the functions of proteins, their electronic fluctuation and the intermolecular interaction, which is physicochemical origin of the molecular functions, under physiological conditions, i.e., dilute aqueous solutions (0.18 mol L−1), has never been clarified due to the lack of observation methods with both accuracy and efficiency. Herein, the time evolutions of the interactions in dilute aqueous trimethylamine N-oxide (TMAO) and tert-butyl alcohol (TBA) solutions were analyzed via ab initio molecular dynamics simulations accelerated with the fragment molecular theory. It has been known that TMAO and TBA have similar structures, but opposite physiological functions to stabilize and destabilize proteins. It was clarified that TMAO induced stable polarization and charge-transfer interactions with water molecules near the hydrophilic group, and water molecules were caught even near the CH3– group. Those should affect protein stabilization. Understanding the solution dynamics will contribute to artificial chaperone design in next generation medicine.

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Electronic fluctuation in physiological solutions: Trimethylamine N-oxide and tert-butyl alcohol

Kuroki

Uchino

Funakura

et al. 2022

Preprint

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Although small organic molecules in cells have been considered important to control the functions of proteins, their electronic fluctuation under real physiological conditions has never been clarified due to the lack of observations. Herein, the time evolutions of the interactions in dilute aqueous trimethylamine N-oxide (TMAO) and tert-butyl alcohol (TBA) solutions were analyzed via ab initio molecular dynamics simulations accelerated with the fragment molecular theory. It has been known that TMAO and TBA have similar structures, but opposite physiological functions to stabilize and destabilize proteins. It was clarified that water dipole in the TMAO solutions are up to 1.5 times enhanced that affect protein stabilization. Understanding the solution dynamics will contribute to artificial chaperone design in next generation medicine.

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Tamon Funakura

Electronic fluctuation difference between trimethylamine N-oxide and tert-butyl alcohol in water

Electronic fluctuation in physiological solutions: Trimethylamine N-oxide and tert-butyl alcohol

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