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Nanyang Technological University

Tracking Axonal Transport of Organelles in Motor Neurons Using a Microfluidic Device

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Begin with a polymer-coated microfluidic chamber with proximal and distal wells connected via multiple microgrooves.

In the proximal well, place mouse embryonic spinal cord tissues rich in developing motor neurons.

Supplement this well with a nutrient medium. Incubate to allow neuron growth and adherence to the polymer-coated surface.

Later, add a growth factor-free nutrient medium to the proximal well.

In distal wells, add a higher volume of nutrient medium containing growth factors to create concentration and volume differences.

These differences cause the axons, the longer neuronal projections, to grow toward the distal wells via the microgrooves.

Add a fluorescent dye solution into both wells.

The dye molecules enter the neurons and stain the mitochondria and acidic organelles at both ends.

In live confocal imaging, fluorescently stained organelles move in both directions between the neural cell bodies and the axons, confirming axonal transport in motor neurons.

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Tracking Axonal Transport of Organelles in Motor Neurons Using a Microfluidic Device

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