Journal
JOURNAL OF BIOLOGICAL CHEMISTRY
Volume 276, Issue 2, Pages 1020-1025Publisher
AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
DOI: 10.1074/jbc.M006184200
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The epithelial Ca2+ channel (ECaC), which was recently cloned from rabbit kidney, exhibits distinctive properties that support a facilitating role in transcellular Ca2+ (re)absorption, ECaC is structurally related to the family of six transmembrane-spanning ion channels with a pore-forming region between 55 and S6, Using point mutants of the conserved negatively charged amino acids present in the putative pore, we have identified a single aspartate residue that determines Ca2+ permeation of ECaC and modulation by extracellular Mg2+. Mutation of the aspartate residue, D542A, abolishes Ca2+ permeation and Ca2+ dependent current decay as well as block by extracellular Mg2+, whereas monovalent cations still permeate the mutant channel. Variation of the side chain length in mutations D542N, D542E, and D542M attenuated Ca2+ permeability and Ca2+-dependent current decay, Block of monovalent currents through ECaC by Mg2+ was decreased. Exchanging the aspartate residue for a positively charged amino acid, D542K, resulted in a nonfunctional channel, Mutations of two neighboring negatively charged residues, i,e. Glu(535) and Asp(550), had only minor effects on Ca2+ permeation properties.
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