Daniela Cimino
@danielacimino.bsky.social
PhD student in the Götz lab - Helmholtz Center Munich.
Interested in adult neurogenesis & heterogeneity of neural progenitor cells🧠🔬
Book lover 📚📚
Interested in adult neurogenesis & heterogeneity of neural progenitor cells🧠🔬
Book lover 📚📚
Reposted by Daniela Cimino
New preprint from @borrell-lab.bsky.social challenging the “current model of cortical neurogenesis” by examining the stages at which direct and indirect neurogenesis processes dominate in mice
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www.biorxiv.org/content/10.1...
🧪🧠
www.biorxiv.org/content/10.1...
Early Indirect Neurogenesis transitions to late Direct Neurogenesis in mouse cerebral cortex development
The cerebral cortex must contain the appropriate numbers of neurons in each layer to acquire its proper functional organization. Accordingly, neurogenesis requires precise regulation along development...
www.biorxiv.org
May 23, 2025 at 9:29 AM
New preprint from @borrell-lab.bsky.social challenging the “current model of cortical neurogenesis” by examining the stages at which direct and indirect neurogenesis processes dominate in mice
🧪🧠
www.biorxiv.org/content/10.1...
🧪🧠
www.biorxiv.org/content/10.1...
Reposted by Daniela Cimino
We've launched the Armamentarium, a new toolkit for targeted gene delivery to the brain and spinal cord.
This #OpenScience resource was made possible thanks to support from the NIH BRAIN Initiative and teamwork with our collaborators.
🧠📈 www.nih.gov/news-events/...
This #OpenScience resource was made possible thanks to support from the NIH BRAIN Initiative and teamwork with our collaborators.
🧠📈 www.nih.gov/news-events/...
Scientists design gene delivery systems for cells in the brain and spinal cord
NIH-funded breakthrough could enable targeted therapies for many neurological disorders.
www.nih.gov
May 21, 2025 at 6:25 PM
We've launched the Armamentarium, a new toolkit for targeted gene delivery to the brain and spinal cord.
This #OpenScience resource was made possible thanks to support from the NIH BRAIN Initiative and teamwork with our collaborators.
🧠📈 www.nih.gov/news-events/...
This #OpenScience resource was made possible thanks to support from the NIH BRAIN Initiative and teamwork with our collaborators.
🧠📈 www.nih.gov/news-events/...
Reposted by Daniela Cimino
Three amazing days of the #neurogen2025 conference at @humantechnopole.bsky.social in Milan. Many thanks to all the participants, speakers and fellow co-organizers. We heard fantastic talks in #neurodevelopment #brainevolution #cancerneuroscience #neuroimmunology #neurodegeneration #neurodiversity
May 21, 2025 at 6:18 PM
Three amazing days of the #neurogen2025 conference at @humantechnopole.bsky.social in Milan. Many thanks to all the participants, speakers and fellow co-organizers. We heard fantastic talks in #neurodevelopment #brainevolution #cancerneuroscience #neuroimmunology #neurodegeneration #neurodiversity
Reposted by Daniela Cimino
Very happy to have contributed a little bit to this beautiful story! Great job by Francesco Di Matteo and @silvianeuro.bsky.social and the all team! Congrats!
February 18, 2025 at 9:10 PM
Very happy to have contributed a little bit to this beautiful story! Great job by Francesco Di Matteo and @silvianeuro.bsky.social and the all team! Congrats!
Reposted by Daniela Cimino
🚀 Excited to share our latest work uncovering TGIF2 as a key transcription factor (TF) safeguarding neural stem cell (NSC) fate and regulating neurogenic priming! 🧠
🔗 biorxiv.org/content/10.1101/2025.02.13.635953v1
Here’s how we found it and why it’s important!🧵👇
🔗 biorxiv.org/content/10.1101/2025.02.13.635953v1
Here’s how we found it and why it’s important!🧵👇
TGIF2 is a major regulator of neural stem cell fate and neurogenic priming
During brain development, neural stem cells (NSCs) must balance self-renewal with differentiation and ensure lineage progression. To identify novel regulators of NSCs during neurogenesis, we isolated ...
biorxiv.org
February 17, 2025 at 12:08 PM
🚀 Excited to share our latest work uncovering TGIF2 as a key transcription factor (TF) safeguarding neural stem cell (NSC) fate and regulating neurogenic priming! 🧠
🔗 biorxiv.org/content/10.1101/2025.02.13.635953v1
Here’s how we found it and why it’s important!🧵👇
🔗 biorxiv.org/content/10.1101/2025.02.13.635953v1
Here’s how we found it and why it’s important!🧵👇