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W2014079899 startingPage "1744" @default.
W2014079899 abstract "Hypothetical hydroxide and proton migration along the linear water chain in Aquaporin GlpF from Escherichia coli are studied by ab initio Car-Parrinello molecular dynamics simulations. It is found that the protein stabilizes a bipolar single file of water. The single file features a contiguous set of water-water hydrogen bonds in which polarization of the water molecules vary with position along the channel axis. Deprotonation of the water chain promotes the reorientation of water molecules while the hydroxide ion rapidly migrates by sequentially accepting protons from the neighboring water molecules. The hydroxide ion is not attracted by a conserved, channel-lining arginine residue, but is immobilized at two centrally located, conserved Asparagine-Proline-Alanine motifs where fourfold coordination stabilizes the ion. Hydroxide transition from the channel vestibules into the channel lumen is strongly influenced by electrostatic coupling to two conserved oppositely aligned macrodipoles. This suggests that the macrodipole’s negative poles play a role in preventing hydroxide ions from entering into the channel’s inner vestibules. Water protonation within the lumen facilitates water reorientation and subsequent proton expelling occurs. In the periplasmic half-channel, expelling occurs via the Grotthuss mechanism. Protonation within the cytoplasmic half-channel implies wire-breakage at the Asn-Pro-Ala motifs. The proton is here diffusively rejected as (H5O2)+." @default.
W2014079899 created "2016-06-24" @default.
W2014079899 creator A5014987384 @default.
W2014079899 creator A5081831378 @default.
W2014079899 creator A5087482363 @default.
W2014079899 date "2005-09-01" @default.
W2014079899 modified "2023-10-17" @default.
W2014079899 title "Hydroxide and Proton Migration in Aquaporins" @default.
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W2014079899 doi "https://doi.org/10.1529/biophysj.104.058206" @default.
W2014079899 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/1366678" @default.
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