Calcium-, voltage- and osmotic stress-sensitive currents in Xenopus oocytes and their relationship to single mechanically gated channels

Keyphrases

• Conductance 100%
• Xenopus Oocytes 100%
• Osmotic Stress 100%
• Mechanically Gated Channels 100%
• Stress Sensitivity 100%
• Voltage Stress 100%
• Membrane Conductance 50%
• Non-selective 50%
• Antisense Oligonucleotides 16%
• Pharmacology 16%
• Ca2+ 16%
• Possible Mechanisms 16%
• Patch-clamp Recording 16%
• Patch Clamp 16%
• Clamp Study 16%
• Na + 16%
• Depolarization 16%
• Hypotonicity 16%
• Ion Selectivity 16%
• Gd3+ 16%
• Hypertonicity 16%
• Surface Density 16%
• Hyperpolarization 16%
• Channel Activation 16%
• Ion Sensitivity 16%

Biochemistry, Genetics and Molecular Biology

• Xenopus 100%
• Conductance 100%
• Electric Potential 100%
• Osmotic Stress 100%
• Membrane Conductance 50%
• Antisense 16%
• Oligonucleotide 16%
• Patch Clamp 16%
• Hypertonic Solution 16%

Neuroscience

• Membrane Conductance 100%
• Osmotic Stress 100%
• Antisense Oligonucleotide 33%
• Patch Clamp 33%