Theoretical Investigations Into Permeation Dynamics In Calcium- And Potassium-Selective Membrane Ion Channels
Funder
National Health and Medical Research Council
Funding Amount
$517,243.00
Summary
All electrical activities in the brain are regulated by opening and closing of ion channels. Thus, understanding their mechanisms at a molecular level is a fundamental problem in biology. There are many different types of ion channels, each type fulfilling a different role. We now know the exact atomic structures of several types of the proteins forming ion channels. Using this newly unveiled information, we propose to build exact physical models of two important classes of ion channels, namely, ....All electrical activities in the brain are regulated by opening and closing of ion channels. Thus, understanding their mechanisms at a molecular level is a fundamental problem in biology. There are many different types of ion channels, each type fulfilling a different role. We now know the exact atomic structures of several types of the proteins forming ion channels. Using this newly unveiled information, we propose to build exact physical models of two important classes of ion channels, namely, the calcium channels and potassium channels, using the technique known as 'homology' modelling. Then, making use of powerful supercomputers and the special computer programs we have devised, we propose to follow the motion of ions as they move through the channel and study how some chemical compounds or drugs interfere with the normal functioning of the channel. Specifically, we will attempt to understand how verapamil, which is used to treat irregular heart beats and high blood pressure, interact with the calcium channel. Once we fully understand how these channels work, we will be able to understand the causes of, and possibly find the cures for, many neurological and muscular disorders, such as cardiac arhythmia and hypertension.Read moreRead less
Theoretical Studies On The Dynamics Of Ion Permeation Across Membrane Channels
Funder
National Health and Medical Research Council
Funding Amount
$381,000.00
Summary
All electrical activities in the brain are regulated by opening and closing of ion channels. Thus, understanding their mechanisms at a molecular level is a fundamental problem in biology. There are many different types of ion channels, each type fulfilling a different role. We now know the exact atomic structures of several types of the proteins forming ion channels. Using this newly unveiled information, we propose to build exact physical models of many different types of ion channels. Then, ma ....All electrical activities in the brain are regulated by opening and closing of ion channels. Thus, understanding their mechanisms at a molecular level is a fundamental problem in biology. There are many different types of ion channels, each type fulfilling a different role. We now know the exact atomic structures of several types of the proteins forming ion channels. Using this newly unveiled information, we propose to build exact physical models of many different types of ion channels. Then, making use of powerful supercomputers, we propose to follow the motion of ions as they move through the channel, study how a channel can select only the correct type of ions to traverse it and determine how many ions a single channel is capable of processing per second. The predictions made by our theory and computer simulations will be checked experimentally. Once we fully understand how these channels work, we will be able to understand the causes of, and possibly find the cures for, many neurological, muscular and renal disorders.Read moreRead less