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tag induced pluripotent stem cell ecology developmental biology neuroscience

Stem Cell Trial for Eye Disease Commences
Jef Akst | Sep 12, 2014 | 2 min read
Researchers at the RIKEN Center for Developmental Biology will treat the first patient in its clinical trial testing an induced pluripotent stem cell-based treatment for age-related macular degeneration.
Use of Induced Pluripotent Stem Cells in Drug Discovery: Challenges and Opportunities
The Scientist Marketing Team | Sep 26, 2013 | 3 min read
The Scientist brings together a panel of experts who parse the hope and hype in an effort to educate the audience about the successes and caveats of using iPSCs.
Researchers CHOOSE Organoids to Investigate Neurodevelopment
Deanna MacNeil, PhD | Jan 29, 2024 | 4 min read
A 3D variation of pooled CRISPR screens could connect the dots between autism spectrum disorder genetics and cell fate pathways in the developing brain.
Top 7 in developmental biology
Bob Grant | Dec 17, 2010 | 3 min read
A snapshot of the most highly ranked articles in developmental biology, from Faculty of 1000
On the left is a normally developing mouse embryo, on the right is a slightly larger mouse embryo that also contains horse cells that glow green.
Chimera research opens new doors to understanding and treating disease
Hannah Thomasy, PhD, Drug Discovery News | Aug 9, 2023 | 10 min read
Animals with human cells could provide donor organs or help us understand neuropsychiatric disorders.
Harnessing Stem Cells to Model Neurological Disorders
The Scientist | Apr 15, 2021 | 2 min read
STAP Confusion Abounds
Jef Akst | Mar 31, 2014 | 2 min read
Stem cells supposedly derived by the new method of stimulus-induced acquisition of pluripotency may have come from mouse strains other than those claimed.
Stem cells for brain cancer
Peter B. Dirks | Apr 1, 2006 | 3 min read
FEATUREThe Ecology of Tumors Stem cells for brain cancer BY PETER B. DIRKSNeural stem cell biology took off in 1992 when Brent Reynolds and Samuel Weiss, working at the University of Calgary, discovered that culturing mammalian brain cells in serum-free conditions (in EGF and bFGF), yielded clonally derived colonies of undifferentiated neural cells (neurospheres). This culture system demonstrated that cells within these colonies showed cardinal pr
Week in Review: February 17–21
Tracy Vence | Feb 21, 2014 | 3 min read
Human vs. dog brains; widespread neuronal regeneration in human adult brain; honeybee disease strikes wild insects; trouble replicating stress-induced stem cells
Stem Cell–Derived Neurons from People with Autism Grow Differently
Jef Akst | Jan 11, 2019 | 2 min read
Changes in gene expression also hint at how the brains of people with ASD develop differently from those of other people.

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