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Effect of charge,topology and orientation of the electric field on the interaction of peptides with the α‐hemolysin pore
Authors:Christopher Christensen  Christian Baran  Besnik Krasniqi  Radu I Stefureac  Sergiy Nokhrin  Jeremy S Lee
Institution:Department of Biochemistry, 107 Wiggins Road, University of Saskatchewan, SK S7N 5E5, Canada
Abstract:Nanopore analysis is an emerging technique of structural biology which employs nanopores, such as the α‐hemolysin pore, as a biosensor. A voltage applied across a membrane containing a nanopore generates a current, which is partially blocked when a molecule interacts with the pore. The magnitude (I) and the duration (T) of the current blockade provide an event signature for that molecule. Two peptides, CY12(+)T1 and CY12(?)T1 with net charges + 2 and ? 2, respectively, were analysed using different applied voltages and all four possible orientations of the electrodes and pore. The four orientations were vestibule downstream (VD), vestibule upstream (VU), stem downstream (SD) and stem upstream (SU) where vestibule and stem refer to the side of the pore on which the peptide was placed and downstream and upstream refer to the application of a positive or negative electrophoretic force, respectively. For CY12(+)T1, the effect of voltage on the event duration was consistent with translocation in the VD and SD configurations, but only intercalation events were observed in the VU and SU configurations. For CY12(?)T1, translocations were only observed in the VD and VU configurations. The results are interpreted in terms of two energy barriers on either side of the lumen of the pore. The difference in height of the barriers determines the preferred direction of exit. Electroosmotic flow and current rectification due to the pore as well as the dipole moment and charge of the peptide also play significant roles. Thus, factors other than simple electrophoresis are important for determining the interaction of small peptides with the pore. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.
Keywords:α  ‐hemolysin  peptide  translocation  intercalation  electrophoresis  electroosmosis  rectification
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