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Monitoring Brain Metabolite Transport in Drosophila Using FRET Sensors

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Visualizing Monocarboxylates and Other Relevant Metabolites in the Ex Vivo Drosophila Larval Brain Using Genetically Encoded Sensors

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Neurociencias
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JoVE Revista Neurociencias

Visualizing Monocarboxylates and Other Relevant Metabolites in the Ex Vivo Drosophila Larval Brain Using Genetically Encoded Sensors

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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

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01:53 min

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October 27, 2023

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Andrés González-Gutiérrez, Jorge Gaete, Andrés Esparza, Jorge Toledo, Andrés Köhler-Solis, Jimena Sierralta³

¹Biomedical Neuroscience Institute,Universidad de Chile, ²Advanced Scientific Equipment Network (REDECA), Faculty of Medicine,Universidad de Chile, ³Department 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

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