Direct evidence of conformational changes associated with voltage gating in a voltage sensor protein by time-resolved X-ray/neutron interferometry

Andrey Y. Tronin, C. Erik Nordgren, Joseph W. Strzalka, Ivan Kuzmenko, David L. Worcester, Valeria Lauter, J. Alfredo Freites, Douglas J. Tobias, J. Kent Blasie

Research output: Contribution to journalArticlepeer-review

12 Scopus citations

Abstract

The voltage sensor domain (VSD) of voltage-gated cation (e.g., Na +, K+) channels central to neurological signal transmission can function as a distinct module. When linked to an otherwise voltage-insensitive, ion-selective membrane pore, the VSD imparts voltage sensitivity to the channel. Proteins homologous with the VSD have recently been found to function themselves as voltage-gated proton channels or to impart voltage sensitivity to enzymes. Determining the conformational changes associated with voltage gating in the VSD itself in the absence of a pore domain thereby gains importance. We report the direct measurement of changes in the scattering-length density (SLD) profile of the VSD protein, vectorially oriented within a reconstituted phospholipid bilayer membrane, as a function of the transmembrane electric potential by time-resolved X-ray and neutron interferometry. The changes in the experimental SLD profiles for both polarizing and depolarizing potentials with respect to zero potential were found to extend over the entire length of the isolated VSD's profile structure. The characteristics of the changes observed were in qualitative agreement with molecular dynamics simulations of a related membrane system, suggesting an initial interpretation of these changes in terms of the VSD's atomic-level 3-D structure.

Original languageEnglish
Pages (from-to)4784-4796
Number of pages13
JournalLangmuir
Volume30
Issue number16
DOIs
StatePublished - Apr 29 2014
Externally publishedYes

Funding

FundersFunder number
National Institutes of HealthRC2GM093307, P01 GM86685, P01 GM55876
National Institute of General Medical SciencesP01GM086685

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