Add to ORKGAbstract: Small peptides isolated from the venom of animals are potential scaffolds for ion channel drug discovery. This review article mainly focuses on the computational studies that have advanced our understanding of how various toxins interfere with the function of K+ channels. We introduce the computational tools available for the study of toxin-channel interactions. We then discuss how these computational tools have been fruitfully applied to elucidate the mechanisms of action of a wide range of venom peptides from scorpions, spiders, and sea anemone
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...
International audienceK(+) channels selectively transport K(+) ions across cell membranes and play a...
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...
Small peptides isolated from the venom of animals are potential scaffolds for ion channel drug disco...
Small peptides isolated from the venom of animals are potential scaffolds for ion channel drug disco...
Small peptides isolated from the venom of animals are potential scaffolds for ion channel drug disco...
Venoms of snakes, scorpions, spiders, insects, sea anemones, and cone snails are complex mixtures of...
The active components of animal venoms are mostly peptide toxins, which typically target ion channel...
Abstract: Toxins from marine animals offer novel drug leads for treatment of diseases involving ion ...
Venom peptides are amongst the most exquisite group of bioactive molecules able to alter the normal ...
The ion channels are important membrane bound proteins and multi-therapeutic target for a number of ...
Toxins from marine animals offer novel drug leads for treatment of diseases involving ion channels. ...
Toxins from marine animals offer novel drug leads for treatment of diseases involving ion channels. ...
AbstractThe Ca2+-activated channel of intermediate-conductance (KCa3.1) is a target for antisickling...
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...
International audienceK(+) channels selectively transport K(+) ions across cell membranes and play a...
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...
Small peptides isolated from the venom of animals are potential scaffolds for ion channel drug disco...
Small peptides isolated from the venom of animals are potential scaffolds for ion channel drug disco...
Small peptides isolated from the venom of animals are potential scaffolds for ion channel drug disco...
Venoms of snakes, scorpions, spiders, insects, sea anemones, and cone snails are complex mixtures of...
The active components of animal venoms are mostly peptide toxins, which typically target ion channel...
Abstract: Toxins from marine animals offer novel drug leads for treatment of diseases involving ion ...
Venom peptides are amongst the most exquisite group of bioactive molecules able to alter the normal ...
The ion channels are important membrane bound proteins and multi-therapeutic target for a number of ...
Toxins from marine animals offer novel drug leads for treatment of diseases involving ion channels. ...
Toxins from marine animals offer novel drug leads for treatment of diseases involving ion channels. ...
AbstractThe Ca2+-activated channel of intermediate-conductance (KCa3.1) is a target for antisickling...
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...
International audienceK(+) channels selectively transport K(+) ions across cell membranes and play a...
Disulfide-rich peptides isolated from the venom of arthropods and marine animals are a rich source o...