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Calcium-, voltage- and osmotic stress-sensitive currents in Xenopus oocytes and their relationship to single mechanically gated channels
Yong Zhang,
Owen P. Hamill
Neuroscience & Cell
Research output
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Contribution to journal
›
Article
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peer-review
26
Scopus citations
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Dive into the research topics of 'Calcium-, voltage- and osmotic stress-sensitive currents in Xenopus oocytes and their relationship to single mechanically gated channels'. Together they form a unique fingerprint.
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Keyphrases
Antisense Oligonucleotides
16%
Ca2+
16%
Channel Activation
16%
Clamp Study
16%
Conductance
100%
Depolarization
16%
Gd3+
16%
Hyperpolarization
16%
Hypertonicity
16%
Hypotonicity
16%
Ion Selectivity
16%
Ion Sensitivity
16%
Mechanically Gated Channels
100%
Membrane Conductance
50%
Na +
16%
Non-selective
50%
Osmotic Stress
100%
Patch Clamp
16%
Patch-clamp Recording
16%
Pharmacology
16%
Possible Mechanisms
16%
Stress Sensitivity
100%
Surface Density
16%
Voltage Stress
100%
Xenopus Oocytes
100%
Biochemistry, Genetics and Molecular Biology
Antisense
16%
Conductance
100%
Electric Potential
100%
Hypertonic Solution
16%
Membrane Conductance
50%
Oligonucleotide
16%
Osmotic Stress
100%
Patch Clamp
16%
Surface Property
16%
Xenopus
100%
Neuroscience
Antisense Oligonucleotide
33%
Membrane Conductance
100%
Osmotic Stress
100%
Patch Clamp
33%