1. On the Natural and Unnatural History of the Voltage-Gated Na+ Channel Edward G. Moczydlowski 2. Biophysical Adaptations of Prokaryotic Voltage Gated Sodium Channels Thuy N. Vien and Paul G. DeCaen 3. Venom Peptides from Cone Snails: Pharmacological Probes for Voltage-Gated Sodium Channels Brad R. Green and Baldomero M. Olivera 4. Convergent Evolution of Tetrodotoxin-Resistant Sodium Channels in Predators and Prey Gabriela Toledo, Charles Hanifin, Shana Geffeney and Edmund D. Brodie III 5. Computational Structural Pharmacology and Toxicology of Voltage-Gated Sodium Channels Boris S. Zhorov and Denis B. Tikhonov 6. Understanding Sodium Channel Function and Modulation Using Atomistic Simulations of Bacterial Channel Structures Celine Boiteux and Toby W. Allen 7. Voltage-Gated Sodium Channels: Mechanistic Insights from Atomistic Molecular Dynamics Simulations Victoria Oakes, Simone Furini and Carmen Domene 8. Simulation Studies of Ion Permeation and Selectivity in Voltage-Gated Sodium Channels Christopher Ing and Regis Pomes 9. Voltage-Gated Sodium Channels: Evolutionary History and Distinctive Sequence Features Marina A. Kasimova, Daniele Granata and Vincenzo Carnevale 10. Cardiac Na Channels: Structure to Function Kevin R. DeMarco and Colleen E. Clancy 11. Developmental and Regulatory Functions of Na+ Channel Non-pore-forming Subunits Jesse J. Winters and Lori L. Isom 12. Lipid Regulation of Sodium Channels Nazzareno DAvanzo 13. Mechanism of Inactivation in Voltage-Gated Na+ Channels Vaibhavkumar S. Gawali and Hannes Todt 14. Current-Voltage Relationship for Late Na+ Current in Adult Rat Ventricular Myocytes R. B. Clark and Wayne R. Giles 15. Physiology and Pathophysiology of Sodium Channel Inactivation Mohammad-Reza Ghovanloo, Kelsey Aimar, Rouzbeh Ghadiry-Tavi, Alec Yu and Peter C. Ruben 16. Cardiac Sodium Channel Mutations: Why So Many Phenotypes? Man Liu, Kai-Chien Yang and Samuel C. Dudley Jr. 17. Nav Channels in Damaged Membranes Catherine E. Morris and Bela Joos 18. Unusual Voltage-Gated Sodium Currents as Targets for Pain Cindy Barbosa and Theodore R. Cummins