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Membrane Potential
Membrane Potential
Tight control of mitochondrial membrane potential by cytochrome c oxidase
Genetics / Mitochondria / Cell line / Humans / Cytochrome c oxidase / Cytochrome oxidase / Membrane Potential / Mitochondrial Membrane Potential / Oxygen Consumption / Mitochondrion / Cytochrome oxidase / Membrane Potential / Mitochondrial Membrane Potential / Oxygen Consumption / Mitochondrion
Experimental Verification of a Sequence-Based Prediction: F1F0-Type ATPase of Vibrio cholerae Transports Protons, Not Na+ Ions
Bacteriology / Hydrogen / Biological Sciences / Sequence alignment / Vibrio cholerae / Enzyme / Sodium / Amino Acid Sequence / Membrane Potential / Hydrolysis / Hydrogen-Ion Concentration / Protons / Adenosine Triphosphate / Enzyme / Sodium / Amino Acid Sequence / Membrane Potential / Hydrolysis / Hydrogen-Ion Concentration / Protons / Adenosine Triphosphate
Experimental verification of a sequence-based prediction: F(1)F(0)-type ATPase of Vibrio cholerae transports protons, not Na(+) ions
Bacteriology / Hydrogen / Biological Sciences / Sequence alignment / Vibrio cholerae / Enzyme / Sodium / Amino Acid Sequence / Membrane Potential / Hydrolysis / Hydrogen-Ion Concentration / Protons / Adenosine Triphosphate / Enzyme / Sodium / Amino Acid Sequence / Membrane Potential / Hydrolysis / Hydrogen-Ion Concentration / Protons / Adenosine Triphosphate
Mathematical Modeling of Mitochondrial Adenine Nucleotide Translocase
Biophysics / Thermodynamics / Catalysis / Kinetics / Mitochondria / Biophysical Chemistry / Biological Sciences / Magnesium / Physical sciences / CHEMICAL SCIENCES / Mathematical Model / Oxidative phosphorylation / Adenine Nucleotide Translocase / Membrane Potential / Sensitivity and Specificity / Experimental Data / Hydrogen-Ion Concentration / Dimerization / Adenosine Triphosphate / Adenosine Diphosphate / Biophysical Chemistry / Biological Sciences / Magnesium / Physical sciences / CHEMICAL SCIENCES / Mathematical Model / Oxidative phosphorylation / Adenine Nucleotide Translocase / Membrane Potential / Sensitivity and Specificity / Experimental Data / Hydrogen-Ion Concentration / Dimerization / Adenosine Triphosphate / Adenosine Diphosphate
Verapamil, a Ca2+ channel inhibitor acts as a local anesthetic and induces the sigma E dependent extra-cytoplasmic stress response in E. coli
Chemical Engineering / Transcription Factors / Cell Division / Biological Sciences / Escherichia coli / Stress response / Physical sciences / Heat Shock Proteins / Membrane Potential / Proton Motive Force / Biochemistry and cell biology / Verapamil / Calcium Channel Blockers / Stress response / Physical sciences / Heat Shock Proteins / Membrane Potential / Proton Motive Force / Biochemistry and cell biology / Verapamil / Calcium Channel Blockers
Transport of potassium inChara australis: II. Kinetics of a symport with sodium
Microbiology / Kinetics / Medical Microbiology / Membrane Biology / Potassium / Sodium / Membrane Potential / Voltage Clamp / Chlorophyta / Kinetic Parameter / Electric Conductivity / Biochemistry and cell biology / Sodium / Membrane Potential / Voltage Clamp / Chlorophyta / Kinetic Parameter / Electric Conductivity / Biochemistry and cell biology
Endothelial mitochondria as a possible target for potassium channel modulators
Mitochondria / Humans / Vascular endothelium / Potassium / Potassium Channels / Membrane Potential / Plasma Membrane / Cell Membrane / Membrane Potential / Plasma Membrane / Cell Membrane
Endothelial mitochondria as a possible target for potassium channel modulators
Mitochondria / Humans / Vascular endothelium / Potassium / Potassium Channels / Membrane Potential / Plasma Membrane / Cell Membrane / Membrane Potential / Plasma Membrane / Cell Membrane
Hydrogenosomes of Metopus contortus physiologically resemble mitochondria
Microbiology / Multidisciplinary / Magnesium / Calcium Phosphate / Marine Sediment / Confocal Laser Scanning Microscopy / Membrane Potential / Confocal Laser Scanning Microscopy / Membrane Potential
Mechanosensitive Ca2+ transients in endothelial cells from human umbilical vein
Calcium / Multidisciplinary / Signal Transduction / Humans / Vascular endothelium / Mechanical Stress / Endothelial cell / Membrane Potential / Arachidonic Acid / Intracellular Calcium / Phospholipase C / Driving force / Cell Membrane / Mechanical Stress / Endothelial cell / Membrane Potential / Arachidonic Acid / Intracellular Calcium / Phospholipase C / Driving force / Cell Membrane
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