Polypeptide Translocation Through the Mitochondrial TOM Channel: Temperature-Dependent Rates at the Single-Molecule Level

The TOM protein complex facilitates the transfer of nearly all mitochondrial preproteins across outer mitochondrial membranes. Here we characterized the effect of temperature on facilitated translocation of a mitochondrial presequence peptide pF1β. Ion current fluctuations analysis through single TO...

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Published in:The journal of physical chemistry letters 2013-01, Vol.4 (1), p.78-82
Main Authors: Mahendran, Kozhinjampara R, Lamichhane, Usha, Romero-Ruiz, Mercedes, Nussberger, Stephan, Winterhalter, Mathias
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Biomaterials, Surfactants, and Membranes
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cited_by cdi_FETCH-LOGICAL-a315t-4b97dcb9d925391293d2c0557dd0ecbc6cc3b230ed25786036568ef386aaf05f3
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creator Mahendran, Kozhinjampara R
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description The TOM protein complex facilitates the transfer of nearly all mitochondrial preproteins across outer mitochondrial membranes. Here we characterized the effect of temperature on facilitated translocation of a mitochondrial presequence peptide pF1β. Ion current fluctuations analysis through single TOM channels revealed thermodynamic and kinetic parameters of substrate binding and allowed determining the energy profile of peptide translocation. The activation energy for the on-rate and off-rate of the presequence peptide into the TOM complex was symmetric with respect to the electric field and estimated to be about 15 and 22 kT per peptide. These values are above that expected for free diffusion of ions in water (6 kT) and reflect the stronger interaction in the channel. Both values are in the range for typical enzyme kinetics and suggest one process without involving large conformational changes within the channel protein.
doi_str_mv 10.1021/jz301790h
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title Polypeptide Translocation Through the Mitochondrial TOM Channel: Temperature-Dependent Rates at the Single-Molecule Level
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