Hydrogen-Bonded Network and Water Dynamics in the D-channel of Cytochrome c Oxidase
Ghane T, Gorriz RF, Wrzalek S, Volkenandt S, Dalatieh F, Reidelbach M, Imhof P (2018)
Publication Type: Journal article
Publication year: 2018
Journal
Book Volume: 251
Pages Range: 299-314
Journal Issue: 3
DOI: 10.1007/s00232-018-0019-x
Abstract
Proton transfer in cytochrome c oxidase (CcO) from the cellular inside to the binuclear redox centre as well as proton pumping through the membrane takes place through proton entrance via two distinct pathways, the D- and K-channel. Both channels show a dependence of their hydration level on the protonation states of their key residues, K362 for the K-channel, and E286 or D132 for the D-channel. In the oxidative half of CcO’s catalytic cycle the D-channel is the proton-conducting path. For this channel, an interplay of protonation state of the D-channel residues with the water and hydrogen-bond dynamics has been observed in molecular dynamics simulations of the CcO protein, embedded in a lipid bi-layer, modelled in different protonation states. Protonation of residue E286 at the end of the D-channel results in a hydrogen-bonded network pointing from E286 to N139, that is against proton transport, and favouring N139 conformations which correspond to a closed asparagine gate (formed by residues N121 and N139). Consequently, the hydration level is lower than with unprotonated E286. In those models, the Asn gate is predominantly open, allowing water molecules to pass and thus increase the hydration level. The hydrogen-bonded network in these states exhibits longer life times of the Asn residues with water than other models and shows the D-channel to be traversable from the entrance, D132, to exit, E286. The D-channel can thus be regarded as auto-regulated with respect to proton transport, allowing proton passage only when required, that is the proton is located at the lower part of the D-channel (D132 to Asn gate) and not at the exit (E286).
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Germany (DE)How to cite
APA:
Ghane, T., Gorriz, R.F., Wrzalek, S., Volkenandt, S., Dalatieh, F., Reidelbach, M., & Imhof, P. (2018). Hydrogen-Bonded Network and Water Dynamics in the D-channel of Cytochrome c Oxidase. Journal of Membrane Biology, 251(3), 299-314. https://dx.doi.org/10.1007/s00232-018-0019-x
MLA:
Ghane, Tahereh, et al. "Hydrogen-Bonded Network and Water Dynamics in the D-channel of Cytochrome c Oxidase." Journal of Membrane Biology 251.3 (2018): 299-314.
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