Fundamental research conducted over the past 20 years has led to an explosion of knowledge on the genetic and molecular mechanisms that regulate the function of cardiac ion channels. One of the most important outcomes of such new understanding has been the realization that the tradition-al reductionist view that ionic currents are the expression o
The application of molecular biology and the development of patch clamp techniques led to a dramatic...
Heartbeats, muscle twitches, and lightning-fast thoughts are all manifestations of bioelectricity an...
Abstract. The cardiac cell is a complex biological system where various processes interact to genera...
Ion channels and Ca2+-handling proteins involved in the regulation of cardiac electrophysiology and ...
Ion channels and Ca2+-handling proteins involved in the regulation of cardiac electrophysiology and ...
The movement of ions across specific channels embedded on the membrane of individual cardiomyocytes ...
The analysis of the molecular basis of the inherited cardiacarrhythmias has been the driving force b...
Ion channels are ubiquitous proteins that mediate nervous and muscular function, rapid transmembrane...
Ion channels are membrane proteins, found in virtually all cells, that are of crucial physiological ...
Membrane proteins, including ion channels, became the focus of structural proteomics in the mid-20 t...
Both inherited and acquired cardiac arrhythmias are often associated with the abnormal functional ex...
Ionic currents activated by hyperpolarization and regulated by cyclic nucleotides were first discove...
Heartbeats, muscle twitches, and lightning-fast thoughts are all manifestations of bioelectricity an...
Cardiac myocytes are characterized by distinct structural and functional entities involved in the ge...
Almost ten years have passed since the first amino acid sequence of a voltage-dependent ion channel,...
The application of molecular biology and the development of patch clamp techniques led to a dramatic...
Heartbeats, muscle twitches, and lightning-fast thoughts are all manifestations of bioelectricity an...
Abstract. The cardiac cell is a complex biological system where various processes interact to genera...
Ion channels and Ca2+-handling proteins involved in the regulation of cardiac electrophysiology and ...
Ion channels and Ca2+-handling proteins involved in the regulation of cardiac electrophysiology and ...
The movement of ions across specific channels embedded on the membrane of individual cardiomyocytes ...
The analysis of the molecular basis of the inherited cardiacarrhythmias has been the driving force b...
Ion channels are ubiquitous proteins that mediate nervous and muscular function, rapid transmembrane...
Ion channels are membrane proteins, found in virtually all cells, that are of crucial physiological ...
Membrane proteins, including ion channels, became the focus of structural proteomics in the mid-20 t...
Both inherited and acquired cardiac arrhythmias are often associated with the abnormal functional ex...
Ionic currents activated by hyperpolarization and regulated by cyclic nucleotides were first discove...
Heartbeats, muscle twitches, and lightning-fast thoughts are all manifestations of bioelectricity an...
Cardiac myocytes are characterized by distinct structural and functional entities involved in the ge...
Almost ten years have passed since the first amino acid sequence of a voltage-dependent ion channel,...
The application of molecular biology and the development of patch clamp techniques led to a dramatic...
Heartbeats, muscle twitches, and lightning-fast thoughts are all manifestations of bioelectricity an...
Abstract. The cardiac cell is a complex biological system where various processes interact to genera...