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Neurowissenschaften
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Monitoring Brain Metabolite Transport in
Drosophila
Using FRET Sensors
/
Visualizing Monocarboxylates and Other Relevant Metabolites in the
Ex Vivo Drosophila
Larval Brain Using Genetically Encoded Sensors
JoVE Journal
Neurowissenschaften
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JoVE Journal
Neurowissenschaften
Visualizing Monocarboxylates and Other Relevant Metabolites in the
Ex Vivo Drosophila
Larval Brain Using Genetically Encoded Sensors
Please note that all translations are automatically generated.
Click here for the English version.
Visualizing Monocarboxylates and Other Relevant Metabolites in the
Ex Vivo Drosophila
Larval Brain Using Genetically Encoded Sensors
Monitoring Brain Metabolite Transport in
Drosophila
Using FRET Sensors
DOI:
10.3791/65846-v
•
01:53 min
•
October 27, 2023
•
Andrés González-Gutiérrez
,
Jorge Gaete
,
Andrés Esparza
,
Jorge Toledo
,
Andrés Köhler-Solis
,
Jimena Sierralta
3
1
Biomedical Neuroscience Institute
,
Universidad de Chile
,
2
Advanced Scientific Equipment Network (REDECA), Faculty of Medicine
,
Universidad de Chile
,
3
Department of Neuroscience, Faculty of Medicine
,
Universidad de Chile
Tags
Monocarboxylates
Metabolites
Drosophila Larval Brain
Genetically Encoded Sensors
Glucose
Lactate
Pyruvate
ATP
Glial Cells
Neurons
Energy Metabolism
Neurodegenerative Diseases
FRET
Ex Vivo
Dissection
Transport
Embed
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Visualizing Monocarboxylates and Other Relevant Metabolites in the
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