We unrestrained mice to study how they use their whiskers to learn a discrimination task. www.nature.com/articles/s41...
Intersectin and endophilin condensates prime synaptic vesicles for release site replenishment
@watanabelab.bsky.social
www.nature.com/articles/s41...
Johns Hopkins scientists discover how a protein organizes message-carrying "bubbles" in brain synapses—advancing understanding of memory formation and learning. www.oneneurojhu.org/...
@watanabelab.bsky.social
Alexander Groh
Nature Neuroscience
We're thrilled to announce the largest private gift in our 137-year history: a $25 million unrestricted donation from MBL Whitman Scientist Mark Terasaki.
His extraordinary generosity will bolster our renowned research and education programs. 🔬
Learn more: bit.ly/452WL1m
OneNeuro Initiative
Time-resolved electron microscopy reveals that intersectin-1 and endophilin A1 condensates hold replacement synaptic vesicles close to release sites. Without this, replacement vesicles are unavailable...
www.nature.com
We are hosting our annual cell biology symposium at the Johns Hopkins DC campus on 4/10/26. We have two fantastic keynote speakers. Excellent opportunities to preset your work and connect! The registration is free and open till 3/8/2016. please rt.
I am incredibly honored to receive this award! But now that I am behind the computer all day, this really is for the team! Congrats to the Watanabe lab!
Here’s a nice article from the @hopkinsmedicine.bsky.social news room, covering the work!
Happy to share our new paper, just published in @cellpress.bsky.social. We show that our zap&freeze approach can be used in human brain tissues to study synaptic membrane dynamics! Our brain is ultrafast after all! nam02.safelinks.protection.outlook.com?url=https%3A...
Marine Biological Laboratory
bit.ly
Cell Biology Researcher Mark Terasaki’s $25 Million Unrestricted Gift Will Support Operations and Infrastructure Contact: Samantha Cummis [email protected]; 973.800.4119
Task paradigms allowing studies on the core ethological function of the whiskers are lacking. Authors here present a task for freely moving mice that enables the study of how the brain processes touch...
