My Thesis

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My PhD thesis entitled “Functional and Structural Studies of the Human Voltage-Gated Proton Channel” has recently been published online by the Rockefeller University website here. The Thesis covers six years of extensive research that I carried out in the Laboratory of Molecular Neurobiology and Biophysics at the Rockefeller University under the tutelage of Dr Roderick MacKinnon. … Continue reading

Proton Channels at the Biophysical Society Meeting – 2013

Proton Channel Speakers

This year was a big year for Hv at the Biophysical Society meeting in Philidephia (Feb. 2-6th). With a symposium and a platform session dedicated to Hv related talks, the meeting boasted a large contingent of scientists studying this channel. I was in attendance and really enjoyed meeting all my fellow Hv researchers whose work I have … Continue reading

The importance of charge compensation in the membrane

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In this post I continue my series on the omega current by discussing how a mutation that removes a charged group from the voltage-sensor domain (VSD) would be highly destabilizing and disruptive. The omega current is a leak current that passes through the VSD of mutated voltage-gated cation channels. In some cases, the mutated channels … Continue reading

Journal Club: Tracking a complete voltage-sensor cycle with metal-ion bridges

In this post I would like to start an online discussion about a very interesting recent PNAS paper: Tracking a complete voltage-sensor cycle with metal-ion bridges by Henrion et al. I know that other people in the voltage-gated cation channel field are very interested in this paper and it also relates to many of the … Continue reading

Omega Current Channelopathies

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In this post I will be continuing my series on the omega current. The omega current is a leak current that passes through the voltage-sensor domain (VSD) of mutated voltage-gated cation channels. Mutation of the VSD S4 helix can reveal a cryptic pore that allows ions (H+, Li+, K+, Rb+ and even guanidinium) to cross … Continue reading

The Omega Current

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Mutation of voltage-sensor domains (VSDs) can sometimes lead to ions leaking across the membrane through the VSDs themselves. Ion conduction through the mutated VSD of the Shaker Kv channel was coined the “omega current” by Tombola, Pathak and Isacoff (Tombola et al., 2005). Many different mutations have been identified that result in current leaking through the VSDs of … Continue reading

Pores and Selectivity Filters

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In this post I will be briefly introducing the classical ideas of ion conduction through membrane proteins. The idea of ion channels as selective pores in the cell membrane is very old but is now understood at atomic detail. So what is a channel? What does an ion conductive pore look like? Here, I will … Continue reading

The Mechanism of Voltage Gating in Potassium Channels? – Part 2 Activation

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OK, time for part 2. If you missed part 1 of this two post series check it out here. Just to recap, I am discussing the recent Science paper (April 13th issue) from the D.E. Shaw Research group, entitled “The Mechanism of Voltage Gating in Potassium Channels.” In this paper, Jensen et al. use their … Continue reading

The Mechanism of Voltage Gating in Potassium Channels? – Part 1 Deactivation

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In this two part post I will discuss the recent Science paper (April 13th issue) from the D.E. Shaw Research group, entitled “The Mechanism of Voltage Gating in Potassium Channels.” In this paper Jensen et al. use their custom designed supercomputer Anton (named after Anton von Leeuwenhoek, the 18th century microscopist) to perform molecular dynamics … Continue reading