Mutagenic induction of an ultra-fast water-chain proton wire

Vered Wineman-Fisher; Ron Simkovich; Dan Huppert; Kristina Trujillo; S. James Remington; Yifat Miller

Journal ArticleOPEN ACCESS

Mutagenic induction of an ultra-fast water-chain proton wire

Physical Chemistry Chemical Physics (2016) 18(33) 23089-23095

DOI: 10.1039/c6cp05071a

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Abstract

Replacement of the hydroxyl group of a hydrophilic sidechain by an H atom in the proton wire of GFP induces formation of a water-chain proton wire. Surprisingly, this "non-native" water chain functions as a proton wire with response times within 10 ps of the wild type protein. This remarkable rate retention is understood as a natural consequence of the well-known Grotthuss mechanism of proton transfer in water.

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Wineman-Fisher, V., Simkovich, R., Huppert, D., Trujillo, K., Remington, S. J., & Miller, Y. (2016). Mutagenic induction of an ultra-fast water-chain proton wire. Physical Chemistry Chemical Physics, 18(33), 23089–23095. https://doi.org/10.1039/c6cp05071a

Mutagenic induction of an ultra-fast water-chain proton wire

Abstract

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