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- Nf1 Regulates Alcohol Dependence-Associated Excessive
- Discovery of a Selective, State-Independent Inhibitor of Nav1.7 by Modification of Guanidinium Toxins
- Supporting Information
- Distinct K Currents Result in Physiologically Distinct Cell Types in the Inferior Colliculus of the Rat
- 329 © Springer Nature Switzerland AG 2019 PK Gupta, Concepts And
- The Structure of Zetekitoxin AB, a Saxitoxin Analog from the Panamanian Golden Frog Atelopus Zeteki: a Potent Sodium-Channel Blocker
- Synthetic Approaches to Zetekitoxin AB, a Potent Voltage-Gated Sodium Channel Inhibitor
- Comparison of Strategies to Overcome Drug Resistance: Learning from Various Kingdoms
- The Sophisticated Peptide Chemistry of Venomous Animals As a Source of Novel Insecticides Acting on Voltage-Gated Sodium Channels
- P. Gopalakrishnakone Editor-In-Chief Anita Malhotra Editor Evolution of Venomous Animals and Their Toxins Toxinology
- Low Chloride Conductance Myotonia - in Vitro Investigations on Muscle Stiffness and the Warm-Up Phenomenon
- Μ-Conotoxins That Differentially Block Sodium Channels Nav1.1 Through 1.8 Identify Those Responsible for Action Potentials in Sciatic Nerve
- Bisphenol a Alters the Function and Expression of BK Channels in Vascular Smooth Muscle Through Membrane and Nuclear Signals
- The Tetrodotoxin Receptor of Voltage-Gated Sodium Channels—Perspectives from Interactions with Μ-Conotoxins
- Modification by Charybdotoxin and Apamin Of
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- Tetrodotoxin-Insensitive Voltage-Dependent Sodium Channel (Complementary DNA/Heart Muscle/Electrophysiology/Antiarrhythmic) MARY E
- Four Disulfide-Bridged Scorpion Beta Neurotoxin Cssii: Heterologous Expression and Proper Folding in Vitro Estrada Georgina 1 , Garcia Blanca I
- Effects of the Potassium Channel Blocking Dendrotoxins On
- Central Action of Dendrotoxin: Selective Reduction of a Transient K
- Intrabody Tetrodotoxin Distribution and Possible Hypothesis for Its Migration in Ribbon Worms Cephalothrix Cf
- Tetrodotoxin
- The Charybdotoxin Receptor of a Shaker K+ Channel: Peptide and Channel Residues Mediating Molecular Recognition Steve A
- Paxilline Inhibits BK Channels by an Almost Exclusively Closed-Channel Block Mechanism Yu Zhou Washington University School of Medicine in St
- Tetrodotoxin
- Tetrodotoxin-Insensitive Voltage-Dependent Sodium Channel (Complementary DNA/Heart Muscle/Electrophysiology/Antiarrhythmic) MARY E
- Charybdotoxin Blocks Voltage-Gated K + Channels in Human and Murine T Lymphocytes
- Today's Outline
- Differential Robustness to Specific Potassium Channel Deletions In
- Analgesia Effect of Enteric Sustained-Release Tetrodotoxin
- Modulation of Excitability by Α-Dendrotoxin-Sensitive Potassium
- Antibodies and Venom Peptides: New Therapeutic Modalities for Ion Channels
- Centipede Venom Peptides Acting on Ion Channels
- Problems of Drug Dependence, 1988
- Ion Channel-Target Toxicology
- Four Disulfide-Bridged Scorpion Beta Neurotoxin Cssii: Heterologous Expression and Proper Folding in Vitro
- Electronic Supplementary Material (ESI) for Natural Product Reports
- Presence and Function of Tetrodotoxin in Terrestrial Vertebrates and Invertebrates
- Postnatal Development of Electrophysiological Properties of Principal Neurons in the Rat Basolateral Amygdala
- Peptide Therapeutics from Venom: Current Status and Potential ⇑ Michael W
- The Receptor for Tetrodotoxin and Saxitoxin. a Structural Hypothesis
- Closed and Open State Dependent Block of Potassium
- Severe Deficiency of Voltage-Gated Sodium Channel Nav1.2 Elevates
- The Evolution of Tetrodotoxin and Its Potential As a Therapeutic
- Conotoxins to the Sodium Channel Nav1.4
- Conotoxin PIIIA, a New Peptide for Discriminating Among Tetrodotoxin-Sensitive Na Channel Subtypes
- Natural Voltage‐Gated Sodium Channel Ligands
- Review Article Scorpion Peptides: Potential Use for New Drug Development
- A Genomic and Proteomic Study of Sea Anemones and Jellyfish from Portugal”
- Tetrodotoxin, an Extremely Potent Marine Neurotoxin: Distribution, Toxicity, Origin and Therapeutical Uses
- Scorpion Toxin Peptide Action at the Ion Channel Subunit Level
- Marine Toxins That Target Voltage-Gated Sodium Channels
- Membrane Cholesterol Content Modulates Activation of BK Channels in Colonic Epithelia