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Individual acidic organelle pH measurements by capillary electrophoresis
Yun Chen,
Edgar A. Arriaga
Chemistry (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
36
Scopus citations
Overview
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Dive into the research topics of 'Individual acidic organelle pH measurements by capillary electrophoresis'. Together they form a unique fingerprint.
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Keyphrases
Capillary Electrophoresis
100%
Fluorescein
100%
Tetramethylrhodamine
100%
Organelle pH
100%
Acidic Organelle
100%
Fluorophore
66%
Liposomes
66%
PH Value
66%
Capillary Electrophoresis with Laser-induced Fluorescence Detection (CE-LIF)
66%
Epifluorescence Microscopy
33%
Anticancer Drugs
33%
Sequestration
33%
Doxorubicin
33%
PH Dependence
33%
New Resources
33%
Detection Analysis
33%
Whole Cell
33%
Two-cell
33%
Fluorescence Intensity
33%
Endocytosis
33%
Low pH
33%
Weak Base
33%
PH-independent
33%
Protonation
33%
Calibration Curve
33%
CCRF-CEM
33%
Human Leukemia
33%
Pixel-based
33%
PH Buffer
33%
CCRF-CEM Cells
33%
Ratiometric Probe
33%
Acid-base Properties
33%
Medicine and Dentistry
Fluorescein
100%
Tetramethylrhodamine
100%
Capillary Electrophoresis
100%
pH Measurement
100%
Base
66%
Liposome
66%
Dextran
66%
Laser Induced Fluorescence
66%
Fluorescence Spectroscopy
66%
Anticarcinogen
33%
Buffer
33%
Epifluorescence Microscopy
33%
Endocytosis
33%
Leukemia
33%
Doxorubicin
33%
Whole Cell
33%
Chemistry
Capillar Electrophoresis
100%
Fluorescein
100%
Tetramethylrhodamine
100%
Capillary Electrophoresis With Laser-Induced Fluorescence Detection
66%
Liposome
66%
Dextran
66%
Antineoplastic Agent
33%
Buffer Solution
33%
Fluorescence Intensity
33%
Analytical Calibration
33%
Acid / Base Behavior
33%
Base
33%
protonation
33%
Doxorubicin
33%
Immunology and Microbiology
Capillary
100%
Laser Induced Fluorescence
66%
Fluorescence Spectroscopy
66%
Whole Cell
33%
Endocytosis
33%
Protonation
33%