With that said, the Cregg Lab is hiring! Please reach out if you are interested in studying motor control. We are broadly interested in the sophisticated circuits underlying movement. More information about how to join us can be found on the lab website: https://t.co/lQTJxcgRyU
We used loss- and gain-of -function approaches to understand the functional significance of this population. Uniquely, we found that this population controls turning gaits – specifically, limb-based turns 5/8
@KiehnLab is excited to share our study in @NatureNeuro. We present the discovery of a brainstem system that can stop all movement with a unique pause-and-play pattern. See the movies. Congrats @haizea_ge, Raghav Selvan and Roberto Leiras. https://t.co/raqs8HiN8x
Congratulations Dr. @GOMEZCD and co-authors from Quentin Lab on your work "Increased Excitatory Synaptic Transmission Associated with Adult Seizure Vulnerability Induced by Early-Life Inflammation in Mice".
https://t.co/Mro6Q9rjFg
@HotchkissBrain@SnyderInstitute@UofCr4kids
"We hope this collection will inspire you with how much progress has been made and how much promise there is to make additional advances in understanding neurons, brains, and behavior in the next 50 years." —@MarinaP63, JNeurosci EiC
Read the editorial: https://t.co/H1jgxNONch
Take a look at our latest study showing that early life inflammation increases CA1 pyramidal neuron excitability in a sex and age dependent manner through a chloride homeostasis disruption ... @JNeuroscience@SfNJournals https://t.co/PVKHteHWQN