New neuroscience research identifies Glutamine Synthetase as the key enzyme driving postnatal brain maturation and neuronal connectivity via the mTOR pathway.

A team of researchers from Tohoku University, the National Center of Neurology and Psychiatry, and National Yang Ming Chiao Tung University has uncovered a novel molecular mechanism through which ...

One hypothesis for how autism develops is excessive neuron production in the prenatal period, leading to a transient but significant increase in brain size in the first few years of life in about ...

Brain cortical organoids (BCOs) created by Dr. Alysson Muotri shown in a 2019 file photo. Researchers at the University of California San Diego used stem cells from toddlers with autism and created ...

A light micrograph of a mouse embryo. RIKEN researchers have created synthetic molecular pathways that illuminate embryonic development. © ...

An overview of Kif23's involvement in embryonic brain development, highlighting how its deficiency disrupts cell division and potentially contribute to microcephaly. "It's difficult to say exactly ...

The human brain, like the brain of other mammals, is known to start developing before birth, via a coordinated sequence of molecular and cellular processes. Neuroscience studies have found that the ...

Add Yahoo as a preferred source to see more of our stories on Google. Miniature brains grown from the stem cells of toddlers with autism may have confirmed a theory about the origins of the condition.

SCDIRB copy 39088019634765 not included in the Bibliotheca Beckwithiana (unpublished). SCDIRB copy has bookplate: Smithsonian Libraries: The Beckwith-Browning-Peterson Teratology Collection. SCDIRB ...

Scientists have made a breakthrough in our understanding of how autism develops in the womb. The findings offer new insights into why some children develop more severe symptoms than others and could ...