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Pathways Recommended: Membrane Transporter/Ion Channel
Results for "

resting membrane potential

" in MedChemExpress (MCE) Product Catalog:

4

Inhibitors & Agonists

1

Peptides

Targets Recommended:
Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-W013712

    Potassium Channel Neurological Disease
    GI-530159 is a selective opener of TREK1 and TREK2 potassium channels. GI-530159 displays selectivity for TREK1/2 over TRAAK, TASK3 and other potassium channels, with an EC50 of 0.76 μM for TREK1. GI-530159 reduces rat dorsal root ganglion neuron excitability and shows potential analgesic effect .
    GI-530159
  • HY-118317

    Endogenous Metabolite Cardiovascular Disease
    Zacopride is a selective agonist with the activity of enhancing the inward rectifier potassium current (IK1) in rabbit hearts. Zacopride also exhibits significant antiarrhythmic effects, inhibiting ventricular arrhythmias by increasing IK1 without affecting atrial arrhythmias. Zacopride can hyperpolarize the resting membrane potential and shorten the action potential duration (APD) in a concentration-dependent manner. Zacopride significantly reduced the incidence of compound-induced early afterdepolarizations (EADs) at 1 μmol/L .
    Zacopride
  • HY-P5152

    Sodium Channel Neurological Disease
    Scorpion toxin Tf2 is a β-scorpion toxin, which is firstly identified in the venom of the Brazilian scorpion Tityus fasciolatus. Scorpion toxin Tf2 is a Nav1.3 activator, which is a neuronal voltage-gated sodium (Nav) subtype implicated in epilepsy and nociception. Scorpion toxin Tf2 enhances hNav1.3 activation voltage and opens the channel at resting membrane potentials .
    Scorpion toxin Tf2
  • HY-103298

    Endogenous Metabolite Neurological Disease
    MNI-caged kainate is a photoprotected neuroactive amino acid with the activity to generate large inward currents. MNI-caged kainate can be released at the resting membrane potential of Purkinje cells and generate significant inward currents. The release of MNI-caged kainate results in approximately 40% of the current being generated through AMPA receptor activation. MNI-caged kainate is used to study fast synaptic receptor mechanisms. The photorelease time of MNI-caged kainate is in the sub-microsecond range, making it suitable for investigating the mechanisms of fast synaptic transmission .
    MNI-caged kainate

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