@phdpetrelli.bsky.social
π€ 38
π₯ 64
π 1
This is a great work indeed!!!
add a skeleton here at some point
about 1 year ago
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reposted by
Carmen Sandi
about 1 year ago
Hiring! Postdoc position in Human Metabolism! Join us to explore the metabolic underpinnings of human brain & behavior; focusing on anxiety & motivation Outstanding interdisciplinary environment
@epfl-brainmind.bsky.social
at EPFL in Lausanne Switzerland Info here:
www.fens.org/careers/job-...
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Postdoctoral Position in Human Metabolism, Mitochondria & Behavior at EPFL - Federation of European Neuroscience Societies
https://www.fens.org/careers/job-market/job/122642
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reposted by
Carmen Falcone
about 1 year ago
π¨The first
#preprint
of the
#FalconeLab
is OUT!π₯Ήπ¨ We found that varicose-projection astrocytes are not a physiological type of
#astrocytes
but they are rather associated with neuropathology. Read more here, feedback is welcome!! More detailsππ 1/
www.biorxiv.org/content/10.1...
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Varicose-projection astrocytes: a reactive phenotype associated with neuropathology
Glial cells are fundamental for the pathophysiology of all neurological disorders. Astrocytes, the primary homeostatic cells of the central nervous system (CNS), exhibit species-specific characteristi...
https://www.biorxiv.org/content/10.1101/2025.03.17.643488v1
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reposted by
Riccardo Bocchi
over 1 year ago
π Think all white matter (WM) astrocytes are the same? Think again! π Our latest research reveals striking regional differences that challenge existing views on astrocyte diversity and function. π§
www.nature.com/articles/s41...
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Astrocyte heterogeneity reveals region-specific astrogenesis in the white matter - Nature Neuroscience
White matter (WM) astrocytes differ significantly from gray matter astrocytes, with WM astrocytes in the forebrain exhibiting unique proliferation capacity, which is absent in cerebellar WM, suggestin...
https://www.nature.com/articles/s41593-025-01878-6
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reposted by
Steven Sloan
over 1 year ago
Trying my best to focus on some positive science content. We feel so grateful to have our work highlighted on the cover of
@naturecellbiology.bsky.social
! This beautiful
#astrocyte
reconstructed from the raw data images used in the paper. Most of which are never typically seen!
rdcu.be/d5ADz
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reposted by
Ethan Hughes
over 1 year ago
New paper out from the lab! Led by
@gdfnunes.bsky.social
and Lindsay Osso in collaboration with the lab of Dan Denman. Check it out! π¬ π π§
www.nature.com/articles/s41...
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Incomplete remyelination via therapeutically enhanced oligodendrogenesis is sufficient to recover visual cortical function - Nature Communications
Remyelination can restore neural function. Here, the authors characterize the drivers and limits of endogenous remyelination and explore a therapy that rescued remyelination deficits and accelerated n...
https://www.nature.com/articles/s41467-025-56092-6
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reposted by
Christian Frezza
over 1 year ago
Check this great paper from the Kononenko lab at
@cecad.bsky.social
"Autophagy regulator ATG5 preserves cerebellar function by safeguarding its glycolytic activity"
www.nature.com/articles/s42...
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Autophagy regulator ATG5 preserves cerebellar function by safeguarding its glycolytic activity - Nature Metabolism
Tutas et al. show an unconventional role for autophagy in the regulation of glycolytic flux in cerebellar Purkinje cells by maintaining the levels of the glucose transporter GLUT2.
https://www.nature.com/articles/s42255-024-01196-4#:~:text=15%20January%202025-,Autophagy%20regulator%20ATG5%20preserves%20cerebellar%20function%20by%20safeguarding%20its%20glycolytic%20activity,-Janine%20Tutas%2C
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reposted by
astrocyteNet
over 1 year ago
βοΈ Wang et al.: Morphological diversification and functional maturation of human astrocytes in glia-enriched cortical organoid transplanted in mouse brain βοΈ
www.nature.com/articles/s41...
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Morphological diversification and functional maturation of human astrocytes in glia-enriched cortical organoid transplanted in mouse brain - Nature Biotechnology
Transplantation of glia-enriched organoids into the mouse brain enables the study of astrocyte subtypes.
https://www.nature.com/articles/s41587-024-02157-8?utm_source=nbt_etoc&utm_medium=email&utm_campaign=toc_41587_43_1&utm_content=20250118
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reposted by
Nature Neuroscience
over 1 year ago
Molecular dynamics of neural stem cells (NSCs) and their surrounding niche in the
#aging
mouse
#hippocampus
using multimodal transcriptomics π§ͺπ§
www.nature.com/articles/s41...
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Multimodal transcriptomics reveal neurogenic aging trajectories and age-related regional inflammation in the dentate gyrus - Nature Neuroscience
Multimodal transcriptomics unveil the molecular dynamics of neural stem cells and their surrounding niche in the aging mouse hippocampus and provide a resource to understand age-related molecular chan...
https://www.nature.com/articles/s41593-024-01848-4
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