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Solid-state electron transport via cytochrome c depends on electronic coupling to electrodes and across the protein.

Authors :
Nadav Amdursky
Doron Ferber
Bortolotti, Carlo Augusto
Dolgikh, Dmitry A.
Chertkova, Rita V.
Pecht, Israel
Mordechai Sheves
Cahen, David
Source :
Proceedings of the National Academy of Sciences of the United States of America; 4/15/2014, Vol. 111 Issue 15, p5556-5561, 6p
Publication Year :
2014

Abstract

Electronic coupling to electrodes, Γ, as well as that across the examined molecules, H, is critical for solid-state electron transport (ETp) across proteins. Assessing the importance of each of these couplings helps to understand the mechanism of electron flow across molecules. We provide here experimental evidence for the importance of both couplings for solid-state ETp across the electron-mediating protein cytochrome c (CytC), measured in a monolayer configuration. Currents via CytC are temperature-independent between 30 and ~130 K, consistent with tunneling by superexchange, and thermally activated at higher temperatures, ascribed to steady-state hopping. Covalent protein-electrode binding significantly increases G, as currents across CytC mutants, bound covalently to the electrode via a cysteine thiolate, are higher than those through electrostatically adsorbed CytC. Covalent binding also reduces the thermal activation energy, E<subscript>a</subscript>, of the ETp by more than a factor of two. The importance of H was examined by using a series of seven CytC mutants with cysteine residues at different surface positions, yielding distinct electrode-protein(-heme) orientations and separation distances. We find that, in general, mutants with electrode-proximal heme have lower E<subscript>a</subscript> values (from high-temperature data) and higher conductance at low temperatures (in the temperature-independent regime) than those with a distal heme. We conclude that ETp across these mutants depends on the distance between the heme group and the top or bottom electrode, rather than on the total separation distance between electrodes (protein width). [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00278424
Volume :
111
Issue :
15
Database :
Complementary Index
Journal :
Proceedings of the National Academy of Sciences of the United States of America
Publication Type :
Academic Journal
Accession number :
95753303
Full Text :
https://doi.org/10.1073/pnas.1319351111