Stephen Jones

Professor

Ph.D., Cornell, 1980
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Voltage-dependent Ion Channels

RESEARCH DESCRIPTION

My work focuses on voltage-dependent channels, the basis of electrical activity and signalling in neurons and other "excitable" cells. Over 100 voltage-dependent cation channels are now known, with 10 or more expressed in an individual neuron. Each neuron has an "electrical personality" resulting from the complex interplay among those channels. Channel activity is also modulated by cellular signalling mechanisms, on time scales ranging from milliseconds to days. My research addresses three fundamental questions about voltage-dependent ion channels: gating (when is a channel open?), permeation (how do ions interact with the channel pore?), and modulation (how do G proteins and other signalling molecules regulate channel function?). We perform electrophysiological studies on channels either in their native environment (acutely isolated neurons), or on cloned channels in expression systems (e. g., mammalian cell lines). We also use quantitative computer models, as operational descriptions of channel behavior, and as testable hypotheses of the molecular mechanisms underlying channel function. Recent work in the lab has focused on T-type calcium channels, which are involved in generation of rhythmic activity in many cells (e. g., thalamic neurons). Long-term goals include structure-function studies, and asking how biophysical properties of T-channels affect the electrical behavior of neurons.

RELATED RESEARCH AREAS

View Stephen Jones's Publications on PubMed