Intramolecular interactions that control voltage sensitivity in the jShak1 potassium channel from Polyorchis penicillatus.

Voltage-gated potassium ion (Kv) channel proteins respond to changes in membrane potential by changing the probability of K flux through an ion-selective pore. Kv channels from different paralogous and orthologous families have widely varying V values. The voltage-sensing transmembrane helices (S4) of different channels contain four to seven basic residues that are responsible for transducing changes in transmembrane potential into the energy required to shift the equilibrium between the open- and closed-channel conformations.

Synthesis of the non-peptidic snail toxin 6-bromo-2-mercaptotryptamine dimer (BrMT)(2), its lower and higher thio homologs and their ability to modulate potassium ion channels.

The first synthesis of the non-peptidic snail toxin 6-bromo-2-mercaptotryptamine dimer (BrMT)2 is described, along with the preparation of its lower and higher thio homologs. The synthetic (BrMT)2 and its derivatives reported herein are all capable of slowing the activation of the Kv1.1 potassium ion channel.

Fine-tuning of voltage sensitivity of the Kv1.2 potassium channel by interhelix loop dynamics.

Many proteins function by changing conformation in response to ligand binding or changes in other factors in their environment. Any change in the sequence of a protein, for example during evolution, which alters the relative free energies of the different functional conformations changes the conditions under which the protein will function. Voltage-gated ion channels are membrane proteins that open and close an ion-selective pore in response to changes in transmembrane voltage.

jShaw1, a low-threshold, fast-activating K(v)3 from the hydrozoan jellyfish Polyorchis penicillatus.

Voltage-gated potassium (K(v)) channels work in concert with other ion channels to determine the frequency and duration of action potentials in excitable cells. Little is known about K(v)3 channels from invertebrates, but those that have been characterized generally display slow kinetics. Here, we report the cloning and characterization of jShaw1, the first K(v)3 isolated from a cnidarian, the jellyfish Polyorchis penicillatus, in comparison with mouse K(v)3.

VKCDB: voltage-gated K+ channel database updated and upgraded.

The Voltage-gated K(+) Channel DataBase (VKCDB) (http://vkcdb.biology.ualberta.