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Mass spectrometric imaging of plasma membrane lipid alteration correlated with amperometrically measured activity-dependent plasticity in exocytosis
Chaoyi Gu
, Mai H. Philipsen
, Andrew G. Ewing
Chemistry
Research output
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Contribution to journal
›
Article
›
peer-review
11
Scopus citations
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Dive into the research topics of 'Mass spectrometric imaging of plasma membrane lipid alteration correlated with amperometrically measured activity-dependent plasticity in exocytosis'. Together they form a unique fingerprint.
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Keyphrases
Cell Membrane
100%
Exocytosis
100%
Plasma Membrane Lipids
100%
Mass Spectrometry Imaging
100%
Lipid Modification
100%
Repetitive Stimulation
100%
Activity-dependent Plasticity
100%
Lipid Species
100%
Lipids
50%
Synaptic Plasticity
50%
High Curvature
50%
Chemical Mechanism
50%
Membrane Lipids
50%
Chemical Changes
50%
Methylphenidate
50%
Transmitter Release
50%
Low Curvatures
50%
Memory Formation
50%
Fusion Pore
50%
Plasticity Mechanisms
50%
Neuroscience
Cell Membrane
100%
Exocytosis
100%
Membrane Lipid
100%
Synaptic Plasticity
50%
Neurotransmitter Release
50%
Methylphenidate
50%
Immunology and Microbiology
Cell Membrane
100%
Exocytosis
100%
Lipid Membrane
33%
Neurotransmitter Release
33%
Nerve Cell Plasticity
33%