Kudos to everyone involved for pushing the boundaries of what we can see in the brain🚀
Check out the full paper here: doi.org/10.1038/s415...
Christopher Ford Andrew Yee @anitaluthi.bsky.social @labluthi.bsky.social @simwieg.bsky.social @FellinLab @ruemcclammyhand.bsky.social digersarah.bsky.social
Out today in @natneuro.nature.com
What started as a great discussion at an amazing meeting organized by @joaofoliveira.bsky.social culminated in our new Perspective on how #astrocyte functions operate across multiple spatial scales.
Read: rdcu.be/fk0B7
Full text: www.nature.com/articles/s41...
Tracking #norepinephrine in vivo just got a major upgrade and it was a massive team effort led by @tpatriarchi.bsky.social .
Have a look at 🟢nLightG2 and 🔴nLightR2 on Nature Methods.
Kudos to all the great scientists involved!
ValentinLRohner, Paul Lamothe-Molina & Zacharoula Kagiampaki! 🧵
doi.org
Nature Neuroscience - Astrocytes modulate complex brain functions. These ubiquitous glial cells constitute a multilayered system of functional units that operate across multiple spatial scales,...
rdcu.be
Improved red and green indicators for norepinephrine and their characterization are reported. These indicators allow detection of norepinephrine release in awake behaving mice in dual-color fiber phot...
✨ Astrocyte Crosstalk: Simultaneous #norepinephrine & #astrocyte calcium imaging in the hippocampus.
👁️ Precision: Mapping discrete NE release in the visual cortex.
By combining our expertise, we developed indicators that offer:
🟢🔴 Dual-color flexibility: High-sensitivity green & red #sensors.
🧠 Complex Dynamics: Reliable tracking of #norepinephrine + neuronal activity.
