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Little Brains Answer Big Questions

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This week we talk to Sergiu Pasca from Stanford University. He has revolutionized the field of understanding the field of brain development in neurodevelopmental disorders and just published a new study which examined the genetic influence of brain assembly. The way he does this is quite remarkable. His lab uses assembloids, which are many many many stem cells which form into a tiny brain. He explains what an interneuron is, why it is important for brain function, and how genetics can influence how these neurons work. This way the development of the brain from the first cell can be tracked and even manipulated to understand what happens in autism, and what therapies might be the most helpful to target these interneurons. Thank you Dr. Pasca.

Open access! https://pubmed.ncbi.nlm.nih.gov/37758944/

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Ribbit…Ribbit… frogs are the new mouse of ASD research

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You’ve heard a lot about CRISPR technology to manipulate gene expression. But what have scientists actually learned? Well, the cells in which DNA is manipulated could come from different animal models, including frogs and mice. These model systems are used to track brain development, sex differences, and the downstream effects of convergence of genetic manipulations of autism relevant genes on brain cells. They can be used, as one study demonstrated, to examine protective or resilience factors in the brain. This week we talk to Helen Willsey, PhD, at UCSF to hear about her research about manipulating genes in frog eggs and what it says about the female protective effect.

https://pubmed.ncbi.nlm.nih.gov/33497602/

https://pubmed.ncbi.nlm.nih.gov/33243861/