Research in our lab is aimed at examining how signaling molecules affect the differentiation of neurons in the developing cortex. Most morphological studies rely on single time point images of cells within a population. It is obviously advantageous to examine changes in individual living cells over time. By combining 2-photon imaging with co-transfection of genes for green fluorescent protein (GFP) and neurotrophins in living neurons, we can asses the effects of these on individual living cells.

Individual neurons in brain slices from ferret visual cortex were transfected with GFP using particle mediated gene-transfer, or Biolistics. Using the Helios Gene Gun (Bio-Rad), DNA-coated gold particles are blasted into living brain slices. Neurons are transfected when a gold particle lands in the nucleus. Within 24 to 36 hours individual cells are well-filled with GFP allowing visualization of dendrites, spines, and axons.