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Pathways Recommended: Membrane Transporter/Ion Channel
Results for "

resting membrane potential

" in MedChemExpress (MCE) Product Catalog:

4

Inhibitors & Agonists

2

Peptides

Targets Recommended:
Cat. No. Product Name Target Research Areas Chemical Structure
  • HY-W013712
    GI-530159

    		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-P5152
    Scorpion toxin Tf2

    		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-P10817
    Corza6

    		Proton Pump Reactive Oxygen Species (ROS) Metabolic Disease
    Corza6 is a potent and selective human voltage-gated proton channel (hHv1) peptide inhibitor. Corza6 binds to the external voltage sensor domain (VSD) loop in hHv1 with a Kd of ~1 nM at the natural, hyperpolarized resting membrane potential (RMP) of mammalian cells. Corza6 allows capacitation in sperm and permits sustained reactive oxygen species (ROS) production in white blood cells (WBCs) .
    Corza6
  • HY-103298
    MNI-caged kainate

    		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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