New study by Chiba University, Japan in collaboration with Karolinska Institutet, Sweden, uncovers novel enhancer-promoter interactions that regulate gene expression during neuronal differentiation ...

A study by IRB Barcelona unveils how the lack of a fraction of the CPEB4 protein causes a decrease in the expression of genes that are crucial for neuronal development. Published in the journal Nature ...

Scientists have shed new light on how certain biological processes determine the development of neural cells. Their findings on a molecular 'bridge' complex demonstrate a new level of detail in the ...

Glial cells in the Drosophila nervous system play indispensable roles in neural development, function, and homeostasis. These non-neuronal cells facilitate a range of processes, including the ...

Researchers from the lab of Richard Simerly have uncovered the first example of activity-dependent development of hypothalamic neural circuitry. The work also suggests a novel role for the hunger ...

The Wistar Institute's Alessandro Gardini, Ph.D., and lab have shed new light on how certain biological processes determine the development of neural cells. Their findings on a molecular "bridge" ...

The concept proposed in this study of gene regulation in neurons through the formation of condensates may also have implications for ageing. Over time, these condensates lose their plasticity, meaning ...

Talk about thinking small: researchers at Harvard University have devised a new way to implant flexible bioelectronic devices in the embryos of frogs, mice, and lizards, enabling them to monitor brain ...

In the brain, highly specific connections called synapses link nerve cells and transmit electrical signals in a targeted manner. Despite decades of research, how synapses form during brain development ...

New findings from Karolinska Institutet reveal how the gene HNRNPU coordinates several fundamental molecular processes during the earliest stages of human brain development. The study is published in ...

Early brain development is a biological black box. While scientists have devised multiple ways to record electrical signals in adult brains, these techniques don’t work for embryos. A team at Harvard ...