Effects of pore mutations and permeant ion concentration on the spontaneous gating activity of OmpC porin

doi:10.1093/protein/13.7.491

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Protein Engineering, Vol. 13, No. 7, 491-500, July 2000
© 2000 Oxford University Press

Effects of pore mutations and permeant ion concentration on the spontaneous gating activity of OmpC porin

Nazhen Liu¹, Hrissi Samartzidou², Keun Woo Lee, James M. Briggs and Anne H. Delcour³

Department of Biology and Biochemistry, University of Houston, Houston, TX 77204-5513, USA

Porins are trimers of ß-barrels that form channels forions and other hydrophilic solutes in the outer membrane ofGram-negative bacteria. The X-ray structures of OmpF and PhoEshow that each monomeric pore is constricted by an extracellularloop that folds into the channel vestibule, a motif that ishighly conserved among bacterial porins. Electrostatic calculationshave suggested that the distribution of ionizable groups atthe constriction zone (or eyelet) may establish an intrinsictransverse electrostatic field across the pore, that is perpendicularto the pore axis. In order to study the role that electrostaticinteractions between pore residues may have in porin function,we used spontaneous mutants and engineered site-directed mutantsthat have an altered charge distribution at the eyelet and comparedtheir electrophysiological behavior with that of wild-type OmpC.We found that some mutations lead to changes in the spontaneousgating activity of OmpC porin channels. Changes in the concentrationof permeant ions also altered this activity. These results suggestthat the ionic interactions that exist between charged residuesat the constriction zone of porin may play a role in the transitionsbetween the channel's closed and open states.

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Protein Engineering Design and Selection

Effects of pore mutations and permeant ion concentration on the spontaneous gating activity of OmpC porin