Now that I have something to show for it, let this be a formal announcement that I’ve returned to Toronto to join Paul Frankland’s lab (and therefore the larger Josselyn-Frankland group). I’ve always liked their work and one of the techniques I’m excited to learn is the use of viruses to alter gene expression in neurons. BECAUSE THIS WILL ALLOW ME TO TAKE PRETTY PICTURES!!! I will also say that this will be a short (but hopefully sweet) stay as I’ll be leaving at the end of the year to start my own lab in the Psychology Department at the University of British Columbia (!).
Now, on with the pictures! As always, I recommend high-res viewing (click on the image to view it, bigger, on Flickr).
Using a retrovirus, which infects dividing cells, I made the amazing discovery of four adult-born cells which all had the exact same shape and were located right next to each other!
Continue reading Virus: a new tool for generating pretty pictures
Previously, I wrote about new SFN data on the role for newborn neurons in regulating emotion. The second half of the SFN meeting rounded out the story because the bulk of the functional presentations focussed on the role of new neurons in that other, classic function of the hippocampus: memory. Spanning synaptic plasticity, circuit function, and then linking it all to behavior, we have quite a complete story here.
SYNAPTIC PLASTICITY IN YOUNG NEURONS
Every time I get worked up about all various neurogenesis findings I think about one acronym that returns me to a state of inner peace: ACSF-LTP. Yes, I plagiarized that last line from my previous post. We all know about LTP right? The ability of synapses to strengthen their connections in response to activity? It has been used for decades as a physiological model of memory formation. It’s pretty well accepted that newborn neuron ACSF-LTP is a unique form of LTP – one that is insensitive to GABAergic inhibition (hence “Artificial Cerebro Spinal Fluid” LTP, in contrast to LTP that also requires inhibition of GABA neurotransmission), one that requires a the NR2B subunit of the NMDA receptor, and one that is induced more easily than that of mature neurons. ACSF-LTP has quite a history: Continue reading Saving the best for last: neurogenesis, plasticity and memory. #SFN11
…and now for what is probably my final pre-SFN post. Posters dealing with mossy fiber function! Continue reading #SFN10 Intinerary Pt. 3 – Mossy Fibers!