TU Berlin

Physikalische Chemie / Biophysikalische ChemiePublikationen

Inhalt des Dokuments

zur Navigation


Suche nach Publikationen

alle Publikationen (Reviews, Articles, Meetings and Proceedings)

Molecular Basis of Coupled Protein and Electron Transfer Dynamics of Cytochrome c in Biomimetic Complexes
Zitatschlüssel ISI:000276991700059
Autor Alvarez-Paggi, Damian and Martin, Diego F. and DeBiase, Pablo M. and Hildebrandt, Peter and Marti, Marcelo A. and Murgida, Daniel H.
Seiten 5769-5778
Jahr 2010
ISSN 0002-7863
DOI 10.1021/ja910707r
Adresse 1155 16TH ST, NW, WASHINGTON, DC 20036 USA
Journal J. Am. Chem. Soc
Jahrgang 132
Nummer 16
Monat APR 28
Zusammenfassung Direct electron transfer (ET) of redox proteins immobilized on biomimetic or biocompatible electrodes represents an active field of fundamental and applied research. In this context, several groups have reported for a variety of proteins unexpected distance dependencies of the ET rate, whose origin remains largely speculative and controversial, but appears to be a quite general phenomenon. Here we have employed molecular dynamics (MD) simulations and electron pathway analyses to study the ET properties of cytochrome c (Cyt) electrostatically immobilized on Au coated by carboxyl-terminated alkylthiols. The MD simulations and concomitant binding energy calculations allow identification of preferred binding configurations of the oxidized and reduced Cyt which are established via different lysine residues and, thus, correspond to different orientations and dipole moments. Calculations of the electronic coupling matrices for the various Cyt/self-assembled monolayer (SAM) complexes indicate that the thermodynamically preferred protein orientations do not coincide with the orientations of optimum coupling. These findings demonstrate that the ET of the immobilized Cyt is controlled by an interplay between protein dynamics and tunneling probabilities. Protein dynamics exerts two level of tuning on the electronic coupling via reorientation (coarse) and low amplitude thermal fluctuations (fine). Upon operating the Au support as an electrode, electric-field-dependent alignment of the protein dipole moment becomes an additional determinant for the protein dynamics and thus for the overall ET rate. The present results provide a consistent molecular description of previous (spectro)electrochemical data and allow conclusions concerning the coupling of protein dynamics and ET of Cyt in physiological complexes.
Typ der Publikation Article
Download Bibtex Eintrag



Schnellnavigation zur Seite über Nummerneingabe