Potassium Channels

Hydrogen sulphide induces μ opioid receptor-dependent analgesia in a rodent model of visceral pain

Pain / Cell line / Humans / Animals / Male / Sulfides / Analgesia / Rats / Hydrogen Sulfide / Potassium Channels / Wistar Rats / Opioid Receptor / Neurosciences / Analgesics / Sulfides / Analgesia / Rats / Hydrogen Sulfide / Potassium Channels / Wistar Rats / Opioid Receptor / Neurosciences / Analgesics

Arabidopsis KEA2, a homolog of bacterial KefC, encodes a K+/H+ antiporter with a chloroplast transit peptide

Chemical Engineering / Fluorescence Microscopy / Biological Sciences / Saccharomyces cerevisiae / Escherichia coli / Physical sciences / Peptides / Nickel / Affinity chromatography / Arabidopsis / Molecular cloning / Potassium Channels / Amino Acid Sequence / Cations / Site-directed Mutagenesis / Biochemistry and cell biology / Chloroplasts / Molecular Sequence Data / Physical sciences / Peptides / Nickel / Affinity chromatography / Arabidopsis / Molecular cloning / Potassium Channels / Amino Acid Sequence / Cations / Site-directed Mutagenesis / Biochemistry and cell biology / Chloroplasts / Molecular Sequence Data

Taste Receptor Cells Express pH-Sensitive Leak K+ Channels

Neurophysiology / Animals / Taste / Rats / Potassium Channels / Base Sequence / Citric Acid / Hydrogen-Ion Concentration / Base Sequence / Citric Acid / Hydrogen-Ion Concentration

Hydrogen sulphide induces μ opioid receptor-dependent analgesia in a rodent model of visceral pain

Pain / Cell line / Humans / Animals / Male / Sulfides / Analgesia / Rats / Hydrogen Sulfide / Potassium Channels / Wistar Rats / Opioid Receptor / Neurosciences / Analgesics / Sulfides / Analgesia / Rats / Hydrogen Sulfide / Potassium Channels / Wistar Rats / Opioid Receptor / Neurosciences / Analgesics

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