Molecular motions within the pore of voltage-dependent sodium channels

The pores of ion channel proteins are often modeled as static structures. In this view, selectivity reflects rigidly constrained backbone orientations. Such a picture is at variance with the generalization that biological proteins are flexible, capable of major internal motions on biologically relev...

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Published in	Biophysical journal Vol. 73; no. 2; pp. 603 - 613
Main Authors	Bénitah, J.P., Ranjan, R., Yamagishi, T., Janecki, M., Tomaselli, G.F., Marban, E.
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.08.1997 Biophysical Society
Subjects	Amino Acid Sequence Animals Calorimetry Cysteine Disulfides Female Hydrogen Bonding Kinetics Life Sciences Membrane Potentials Models, Molecular Muscle, Skeletal - physiology Mutagenesis, Site-Directed Oocytes - physiology Point Mutation Potassium Channels - biosynthesis Potassium Channels - chemistry Potassium Channels - physiology Protein Conformation Rats Recombinant Proteins - biosynthesis Recombinant Proteins - chemistry Xenopus laevis
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Abstract	The pores of ion channel proteins are often modeled as static structures. In this view, selectivity reflects rigidly constrained backbone orientations. Such a picture is at variance with the generalization that biological proteins are flexible, capable of major internal motions on biologically relevant time scales. We tested for motions in the sodium channel pore by systematically introducing pairs of cysteine residues throughout the pore-lining segments. Two distinct pairs of residues spontaneously formed disulfide bonds bridging domains I and II. Nine other permutations, involving all four domains, were capable of disulfide bonding in the presence of a redox catalyst. The results are inconsistent with a single fixed backbone structure for the pore; instead, the segments that line the permeation pathway appear capable of sizable motions.
AbstractList	The pores of ion channel proteins are often modeled as static structures. In this view, selectivity reflects rigidly constrained backbone orientations. Such a picture is at variance with the generalization that biological proteins are flexible, capable of major internal motions on biologically relevant time scales. We tested for motions in the sodium channel pore by systematically introducing pairs of cysteine residues throughout the pore-lining segments. Two distinct pairs of residues spontaneously formed disulfide bonds bridging domains I and II. Nine other permutations, involving all four domains, were capable of disulfide bonding in the presence of a redox catalyst. The results are inconsistent with a single fixed backbone structure for the pore; instead, the segments that line the permeation pathway appear capable of sizable motions.
Author	Marban, E. Yamagishi, T. Janecki, M. Ranjan, R. Bénitah, J.P. Tomaselli, G.F.
AuthorAffiliation	Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, USA
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Title	Molecular motions within the pore of voltage-dependent sodium channels
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