This protocol discusses the live dissection of Drosophila larvae for the purpose of imaging the movement of GFP tagged axonal vesicles on microtubule tracks.
1. Preparation of Reagents
2. Preparation for the Dissection
3. Collection of Larvae
4. Live dissection of larvae
5. Live imaging of dissected larvae
6. Representative Results
Figure 1: A representative image showing many axonal vesicles on many axonal tracks within a larval segmental nerve. Note the blobs of GFP, representing axonal accumulations.
Figure 2: A representative image showing a single axonal track with many axonal vesicles within a larval segmental nerve.
In vivo imaging of synaptic vesicle transport within Drosophila larval segmental nerves is a powerful tool for studying the mechanisms in axonal transport. We have previously used this protocol to evaluate the transport dynamics within larval nerves expressing expanded polyQ repeats to elucidate how expansion of repeats affect the dynamics of vesicle transport 3. Using this protocol the velocity of vesicle movement can be determined by converting the video streams to a kymograph. Using genetics, GFP vesicle transport can be visualized within a single axon or within several axons by using a specific GAL4 driver to drive the expression of GFP. Additionally the dynamics of transport can also be observed in larvae carrying mutations for specific genes. Further two vesicles tagged with different GFP variants (CFP or RFP) can be simultaneously visualized.
The authors have nothing to disclose.
SG is supported by funds from the State University of New York at Buffalo and from John R. Oishei Foundation.
MK was supported by a Student Research Award by CURCA at UB.
Material Name | Typ | Company | Catalogue Number | Comment |
---|---|---|---|---|
1 Pair Micro Dissection Scissors | Fine Scientific | Spring scissors – 6mm blade. 0.125 mm tip diameter | ||
2 Pair Forceps | Fischer Scientific | Fisherbrand Dissecting Micro-Adson serrated tip forceps | ||
Box of Dissection Pins | Fine Scientific | Minutien Pins 0.1mm diameter |