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Unfolding of a Temperature-Sensitive Domain Controls Voltage-Gated Channel Activation.


ABSTRACT: Voltage-gated ion channels (VGICs) are outfitted with diverse cytoplasmic domains that impact function. To examine how such elements may affect VGIC behavior, we addressed how the bacterial voltage-gated sodium channel (BacNa(V)) C-terminal cytoplasmic domain (CTD) affects function. Our studies show that the BacNa(V) CTD exerts a profound influence on gating through a temperature-dependent unfolding transition in a discrete cytoplasmic domain, the neck domain, proximal to the pore. Structural and functional studies establish that the BacNa(V) CTD comprises a bi-partite four-helix bundle that bears an unusual hydrophilic core whose integrity is central to the unfolding mechanism and that couples directly to the channel activation gate. Together, our findings define a general principle for how the widespread four-helix bundle cytoplasmic domain architecture can control VGIC responses, uncover a mechanism underlying the diverse BacNa(V) voltage dependencies, and demonstrate that a discrete domain can encode the temperature-dependent response of a channel.

SUBMITTER: Arrigoni C 

PROVIDER: S-EPMC4769381 | biostudies-literature | 2016 Feb

REPOSITORIES: biostudies-literature

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Unfolding of a Temperature-Sensitive Domain Controls Voltage-Gated Channel Activation.

Arrigoni Cristina C   Rohaim Ahmed A   Shaya David D   Findeisen Felix F   Stein Richard A RA   Nurva Shailika Reddy SR   Mishra Smriti S   Mchaourab Hassane S HS   Minor Daniel L DL  

Cell 20160201 5


Voltage-gated ion channels (VGICs) are outfitted with diverse cytoplasmic domains that impact function. To examine how such elements may affect VGIC behavior, we addressed how the bacterial voltage-gated sodium channel (BacNa(V)) C-terminal cytoplasmic domain (CTD) affects function. Our studies show that the BacNa(V) CTD exerts a profound influence on gating through a temperature-dependent unfolding transition in a discrete cytoplasmic domain, the neck domain, proximal to the pore. Structural an  ...[more]

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