This article explores how single-cell multiomics and spatial transcriptomics are illuminating early pregnancy, uncovering ...

The human brain is a fascinating and complex organ that supports numerous sophisticated behaviors and abilities that are ...

Macaques are often studied because their brains share many similarities with human brains. However, this study revealed an ...

All of us began as a single cell, the fertilized egg. This cell gave rise to a group of "stem cells" that can transform into any cell type in our body to create our complex tissues consisting of ...

Some newly reported clumps of cells growing in lab dishes have been hailed as the closest things to human embryos that scientists have ever made in the lab. These entities are human embryo models — ...

Humans have long wondered when and how we begin to form thoughts. Are we born with a pre-configured brain, or do thought patterns only begin to emerge in response to our sensory experiences of the ...

Researchers have identified a variant in the gene TBX1 as key in the development of the unique morphology at the base of the skull. TBX1 is present at higher levels in humans than in closely related ...

What is individual heterogeneity in human diseases? The degree of susceptibility, as well as the prognosis of human diseases, are not evenly distributed at the population level. In other words, not ...

Human-machine understanding (HMU) represents the next frontier in human-centric technology. By integrating insights from human behavioural data, cognitive science and psychology with artificial ...

Tal Sharf (right, senior author), Tjiste van der Molen (middle, postdoctoral researcher), and Greg Kaurala (left, staff researcher). Humans have long wondered when and how we begin to form thoughts.

Sharf holds a CMOS-based microelectrode array chip used to precisely locate the electrical activity of single neurons within millimeter-sized organoid tissue. Humans have long wondered when and how we ...