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Imperatoxin
Scorpion Toxins Targeted Against the Sarcoplasmic Reticulum Ca2+-Release Channel of Skeletal and Cardiac Muscle
Multiple Actions of Φ-LITX-Lw1a on Ryanodine Receptors Reveal a Functional Link Between Scorpion DDH and ICK Toxins
Maurocalcine-Derivatives As Biotechnological Tools for The
Venom Week 2012 4Th International Scientific Symposium on All Things Venomous
Cell Penetration Properties of a Highly Efficient Mini Maurocalcine Peptide
Channel Toxin from Parabuthus Transvaalicus
Modulation of Neuropeptide Release Via Voltage-Dependent and -Independent Signaling in Isolated Neurohypophysial Terminals: a Dissertation
Are Ryanodine Receptors Important for Diastolic Depolarization in Heart?
Redalyc.Tityus Zulianus and Tityus Discrepans Venoms Induced
Composition Modulating Botulinum Neurotoxin Effect
Involvement of Multiple Intracellular Release Channels in Calcium Sparks of Skeletal Muscle
Toxins and Signalling Evelyne Benoit, Françoise Goudey-Perriere, P
Proceedings of the International Workshop On
Toxines Et Fonctions Cholinergiques Neuronales Et Non Neuronales
(2006.01) A61k 47/64
Therapeutic Implications of Novel Peptides Targeting ER
Information to Users
In Cellulo Phosphorylation Induces Pharmacological Reprogramming of Maurocalcin, a Cell-Penetrating Venom Peptide
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Invited Review Ryanodine Receptors As Pharmacological Targets for Heart Disease1
Effects of Imperatoxin a on Local Sarcoplasmic Reticulum Ca2+ Release in Frog Skeletal Muscle
Peptide Toxins Quick Reference
The Sophisticated Peptide Chemistry of Venomous Animals As a Source of Novel Insecticides Acting on Voltage-Gated Sodium Channels
Présenté Pour L'obtention Du Diplôme De MAGISTER En
Item Name Catalog Number Quantity A-803467 A-105 10 Mg A
A Peptide Activator of Ca2+ Release Channels/Ryanodine Receptors
Three-Dimensional Location of the Imperatoxin a Binding Site on the Ryanodine Receptor Montserrat Samsó,* Ramon Trujillo,* Georgina B
Disulfide-Rich Peptides Quick Reference
Venoms of Iranian Scorpions (Arachnida, Scorpiones) and Their Potential for Drug Discovery
Imperatoxin a Enhances Ca2 Release in Developing Skeletal Muscle
Imperatoxin a Enhances Ca2 Release in Developing
Cell-Penetrating Peptides Derived from Animal Venoms and Toxins
Structural Venomics Reveals Evolution of a Complex Venom by Duplication and Diversification of an Ancient Peptide-Encoding Gene
Imperatoxin A, a Cell-Penetrating Peptide from Scorpion Venom, As a Probe of Ca2+-Release Channels/Ryanodine Receptors
The Structural Biology of Ryanodine Receptors
WO 2018/193408 Al 2018/193408
(Ryanodine Receptors) of Cardiac and Skeletal Muscle