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Cysteine accessibility in ClC-0 supports conservation of the ClC intracellular vestibule.
Engh, Anita M; Maduke, Merritt.
Affiliation
  • Engh AM; Department of Molecular and Cellular Physiology, Stanford University School of Medicine, CA 94305, USA.
J Gen Physiol ; 125(6): 601-17, 2005 Jun.
Article in En | MEDLINE | ID: mdl-15897295
ClC chloride channels, which are ubiquitously expressed in mammals, have a unique double-barreled structure, in which each monomer forms its own pore. Identification of pore-lining elements is important for understanding the conduction properties and unusual gating mechanisms of these channels. Structures of prokaryotic ClC transporters do not show an open pore, and so may not accurately represent the open state of the eukaryotic ClC channels. In this study we used cysteine-scanning mutagenesis and modification (SCAM) to screen >50 residues in the intracellular vestibule of ClC-0. We identified 14 positions sensitive to the negatively charged thiol-modifying reagents sodium (2-sulfonatoethyl)methanethiosulfonate (MTSES) or sodium 4-acetamido-4'-maleimidylstilbene-2'2-disulfonic acid (AMS) and show that 11 of these alter pore properties when modified. In addition, two MTSES-sensitive residues, on different helices and in close proximity in the prokaryotic structures, can form a disulfide bond in ClC-0. When mapped onto prokaryotic structures, MTSES/AMS-sensitive residues cluster around bound chloride ions, and the correlation is even stronger in the ClC-0 homology model developed by Corry et al. (2004). These results support the hypothesis that both secondary and tertiary structures in the intracellular vestibule are conserved among ClC family members, even in regions of very low sequence similarity.
Subject(s)

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Chloride Channels / Cysteine Limits: Animals Language: En Journal: J Gen Physiol Year: 2005 Type: Article Affiliation country: United States

Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: Chloride Channels / Cysteine Limits: Animals Language: En Journal: J Gen Physiol Year: 2005 Type: Article Affiliation country: United States