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Do caged-Ca
2+
compounds mimic the physiological stimulus for secretion?
A. F. Oberhauser
, I. M. Robinson
, J. M. Fernandez
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Link opens in a new tab
Scopus citations
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Dive into the research topics of 'Do caged-Ca
2+
compounds mimic the physiological stimulus for secretion?'. Together they form a unique fingerprint.
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Keyphrases
Ca2+
100%
Physiological Stimuli
100%
Capacitance
75%
Mast Cells
50%
Chromaffin Cells
50%
Imaging Studies
25%
Plasma Membrane
25%
Cell-to-cell
25%
Ca2+ Influx
25%
Physiological Condition
25%
Capacitive Response
25%
Amperometry
25%
Non-secretors
25%
Ca2+ Channels
25%
Amperometric
25%
Physiological Stimulation
25%
Ca2+ Concentration
25%
Stimulus-induced
25%
Cage Compounds
25%
Cell Membrane Capacitance
25%
Flash Photolysis
25%
Laser Imaging
25%
Oxidizable
25%
Pulsed Laser
25%
Neuroscience
Cell Membrane
100%
Mast Cell
100%
Chromaffin Cell
100%
Calcium Channel
50%
Evoked Potential
50%
Medicine and Dentistry
Secretion (Process)
100%
Calcium Ion
100%
Cell Membrane
33%
Mast Cell
33%
Chromaffin Cell
33%
Calcium Channel
16%
Flash Photolysis
16%
Nitrofen
16%
Amperometry
16%
Evoked Potential
16%
Immunology and Microbiology
Secretion (Process)
100%
Cell Membrane
50%
Mast Cell
50%
Chromaffin Cell
50%
Calcium Channel
25%
Spike
25%
Flash Photolysis
25%
Evoked Response
25%
Engineering
Mast Cell
100%
Amperometry
50%
Capacitive
50%
Physiological Condition
50%
Pulsed Laser
50%
Agricultural and Biological Sciences
Calcium Ion
100%
Cell Membrane
33%
Mast Cell
33%
Chromaffin Cell
33%
Evoked Potential
16%
Plasma Membrane
16%
Calcium Channel
16%