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Patch Clamp
Patch Clamp
Menthol-Induced Ca2+ Release from Presynaptic Ca2+ Stores Potentiates Sensory Synaptic Transmission
Neuroscience / Calcium / Enzyme Inhibitors / Patch-clamp and imaging techniques / Glutamate / Transient receptor potential channels / Animals / Spinal Cord / Sensory Neuron / Synaptic Transmission / Rats / SYNAPSES / Chelating Agents / Boron Compounds / Patch Clamp / Dorsal Horn / Menthol / Phospholipase C / Excitatory Postsynaptic Potentials / Glutamate release / Transient receptor potential channels / Animals / Spinal Cord / Sensory Neuron / Synaptic Transmission / Rats / SYNAPSES / Chelating Agents / Boron Compounds / Patch Clamp / Dorsal Horn / Menthol / Phospholipase C / Excitatory Postsynaptic Potentials / Glutamate release
Nuclear pore ion channel activity in live syncytial nuclei
Physiology / Electrophysiology / RNA / Ion Channels / Patch-clamp and imaging techniques / DNA / Permeability / Nuclear pore complex / Cocos / Medical Physiology / Plasmids / Green Fluorescent Protein / Chromatin / Cell nucleus / Patch Clamp / Nuclear Transport / DNA / Permeability / Nuclear pore complex / Cocos / Medical Physiology / Plasmids / Green Fluorescent Protein / Chromatin / Cell nucleus / Patch Clamp / Nuclear Transport
Amphetamine induces dopamine efflux through a dopamine transporter channel
Confocal Microscopy / Multidisciplinary / Patch-clamp and imaging techniques / Dopamine / Cell line / Brain / Humans / Amphetamine / Synaptic Vesicle Recycling / Dopamine Transporter / Drugs of Abuse / Plasma Membrane / Patch Clamp / Brain / Humans / Amphetamine / Synaptic Vesicle Recycling / Dopamine Transporter / Drugs of Abuse / Plasma Membrane / Patch Clamp
Mechano-sensitivity of epithelial sodium channels (ENaCs): laminar shear stress increases ion channel open probability
Physiology / Probability / Patch-clamp and imaging techniques / Female / Animals / Water balance / Shear Stress / Whole cell recording / Medical Physiology / Mechanical Stress / Rats / Sodium / Xenopus laevis / Shear Force / Oocytes / Recombinant Proteins / Patch Clamp / Biochemistry and cell biology / Water balance / Shear Stress / Whole cell recording / Medical Physiology / Mechanical Stress / Rats / Sodium / Xenopus laevis / Shear Force / Oocytes / Recombinant Proteins / Patch Clamp / Biochemistry and cell biology
Mitochondria-rich cells as experimental model in studies of epithelial chloride channels
Chemical Engineering / Mitochondria / Energy Metabolism / Patch-clamp and imaging techniques / Biological Sciences / Sequence alignment / cyclic AMP / Animals / Physical sciences / Skin / Behavioral Animal Models / Constant Time Delay / Epithelium / Chloride Channel / Bufo Bufo / Amino Acid Sequence / Voltage Clamp / Electric Conductivity / Patch Clamp / Biochemistry and cell biology / Noise analysis / Experimental Model / Sequence alignment / cyclic AMP / Animals / Physical sciences / Skin / Behavioral Animal Models / Constant Time Delay / Epithelium / Chloride Channel / Bufo Bufo / Amino Acid Sequence / Voltage Clamp / Electric Conductivity / Patch Clamp / Biochemistry and cell biology / Noise analysis / Experimental Model
96 Parallel Gigaseal Patch Clamp Recordings
Biophysical Chemistry / Biological Sciences / Physical sciences / CHEMICAL SCIENCES / Patch Clamp
Electrophysiological recording from parasitic nematode muscle
Zoology / Electrophysiology / Invertebrate Neuroscience / Ion Channels / Patch-clamp and imaging techniques / Animals / Muscles / Microelectrodes / Nematoda / Voltage Clamp / Neurosciences / Patch Clamp / Animals / Muscles / Microelectrodes / Nematoda / Voltage Clamp / Neurosciences / Patch Clamp
Molecular identification and functional characterization of a temperature-sensitive transient receptor potential channel (TRPM8) from canine
Transient receptor potential channels / Sensory Neuron / Protein Sequence Analysis / Molecular Identification / Mustard Oil / Temperature Sensitive Polymer / Patch Clamp / Temperature Sensitive Polymer / Patch Clamp
Heterologously expressed fungal transient receptor potential channels retain mechanosensitivity in vitro and osmotic response in vivo
Electrophysiology / Kinetics / Calcium / Ion Channels / Patch-clamp and imaging techniques / Budding Yeast / Saccharomyces cerevisiae / Lipids / Phylogeny / Transient receptor potential channels / Polymerase Chain Reaction / Candida albicans / Plasmids / Pressure / Molecular cloning / Time Factors / Fungal genome size / Osmosis / Lipid bilayers / Amino Acid Sequence / Culture Media / Heterologous Expression / Lipid Bilayer / Cytoplasm / Ligands / Patch Clamp / Molecular Sequence Data / Budding Yeast / Saccharomyces cerevisiae / Lipids / Phylogeny / Transient receptor potential channels / Polymerase Chain Reaction / Candida albicans / Plasmids / Pressure / Molecular cloning / Time Factors / Fungal genome size / Osmosis / Lipid bilayers / Amino Acid Sequence / Culture Media / Heterologous Expression / Lipid Bilayer / Cytoplasm / Ligands / Patch Clamp / Molecular Sequence Data
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