A global consortium of scientists has created the first and most detailed "developmental maps" of the mammalian brain (from ...

Researchers at Karolinska Institutet and Yale University have created a multidimensional, molecular map of how the mouse ...

Scientists are hopeful it will improve understanding of how genes work, what goes wrong in disease, and how to fix it.

USC researchers built artificial neurons that replicate real brain processes using ion-based diffusive memristors. These ...

Human progenitors are programmed into ependymal cells in brain organoids via GEMC1 and MCIDAS expression. This strategy ...

Scientists from Duke-NUS Medical School and their collaborators have created one of the most comprehensive single cell maps of the developing human brain. The atlas captures nearly every cell type, ...

Understanding how cells turn genes on and off is one of biology's most enduring mysteries. Now, a new technology developed by chemist Brian Liau and his collaborators at Harvard offers an ...

This study presents valuable findings on the role of KLF6 in in vitro endothelial cells exposed to altered (high or low) shear stress with a customized microfluidic device to investigate mechanisms of ...

An artificial intelligence model predicts how brain immune cells react to RNA and DNA nanoparticles, helping scientists design safer and more effective nucleic acid therapies faster.

Clonal hematopoiesis of indeterminate potential (CHIP) is a known risk factor for coronary artery disease, though its precise role in disease progression continues to emerge. This study leverages ...

Using single-cell RNA sequencing and genetic screening, the researchers identified key surface proteins that mediate ...

A promising breakthrough in autoimmune disease research may open the door to safer and more effective treatments. Scientists ...