Single-channel properties of ionic channels gated by cyclic nucleotides.

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Single-channel properties of ionic channels gated by cyclic nucleotides.

G Bucossi, M Nizzari and V Torre

INFM, Genova, Italy.

ABSTRACT

This paper presents an extensive analysis of single-channelproperties of cyclic nucleotide gated (CNG) channels, obtainedby injecting into Xenopus laevis oocytes the mRNA encoding forthe alpha and beta subunits from bovine rods. When the alphaand beta subunits of the CNG channel are coexpressed, at leastthree types of channels with different properties are observed.One type of channel has well-resolved, multiple conductive levelsat negative voltages, but not at positive voltages. The othertwo types of channel are characterized by flickering openings,but are distinguished because they have a low and a high conductance.The alpha subunit of CNG channels has a well-defined conductanceof about 28 pS, but multiple conductive levels are observedin mutant channels E363D and T364M. The conductance of theseopen states is modulated by protons and the membrane voltage,and has an activation energy around 44 kJ/mol. The relativeprobability of occupying any of these open states is independentof the cGMP concentration, but depends on extracellular protons.The open probability in the presence of saturating cGMP was0.78, 0.47, 0.5, and 0.007 in the w.t. and mutants E363D, T364M,and E363G, and its dependence on temperature indicates thatthe thermodynamics of the transition between the closed andopen state is also affected by mutations in the pore region.These results suggest that CNG channels have different conductivelevels, leading to the existence of multiple open states inhomomeric channels and to the flickering behavior in heteromericchannels, and that the pore is an essential part of the gatingof CNG channels.

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