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The gating mechanism in cyclic nucleotide-gated ion channels.


ABSTRACT: Cyclic nucleotide-gated (CNG) channels mediate transduction in several sensory neurons. These channels use the free energy of CNs' binding to open the pore, a process referred to as gating. CNG channels belong to the superfamily of voltage-gated channels, where the motion of the ?-helix S6 controls gating in most of its members. To date, only the open, cGMP-bound, structure of a CNG channel has been determined at atomic resolution, which is inadequate to determine the molecular events underlying gating. By using electrophysiology, site-directed mutagenesis, chemical modification, and Single Molecule Force Spectroscopy, we demonstrate that opening of CNGA1 channels is initiated by the formation of salt bridges between residues in the C-linker and S5 helix. These events trigger conformational changes of the ?-helix S5, transmitted to the P-helix and leading to channel opening. Therefore, the superfamily of voltage-gated channels shares a similar molecular architecture but has evolved divergent gating mechanisms.

SUBMITTER: Mazzolini M 

PROVIDER: S-EPMC5758780 | biostudies-literature | 2018 Jan

REPOSITORIES: biostudies-literature

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The gating mechanism in cyclic nucleotide-gated ion channels.

Mazzolini Monica M   Arcangeletti Manuel M   Marchesi Arin A   Napolitano Luisa M R LMR   Grosa Debora D   Maity Sourav S   Anselmi Claudio C   Torre Vincent V  

Scientific reports 20180108 1


Cyclic nucleotide-gated (CNG) channels mediate transduction in several sensory neurons. These channels use the free energy of CNs' binding to open the pore, a process referred to as gating. CNG channels belong to the superfamily of voltage-gated channels, where the motion of the α-helix S6 controls gating in most of its members. To date, only the open, cGMP-bound, structure of a CNG channel has been determined at atomic resolution, which is inadequate to determine the molecular events underlying  ...[more]

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