We can use this technology to build a map of what’s going on in there and better understand when things are disorganized like ...

An analysis of tissue samples from nearly 1,200 older adults found that the more insertions individuals had, the younger they died.

Scientists used light-activated droplets to reposition DNA, offering new insights into gene expression and disease treatment.

By turning droplets into tools for physically repositioning DNA, scientists can now explore gene expression with ...

One of this year's coveted Lasker Awards has gone to Zhijian "James" Chen, a scientist behind a key immune-system discovery.

Two complementary studies from the Faculty of Medical and Health Sciences at Tel Aviv University, in collaboration with the ...

Next, we inject the nucleus (at arrow ... In the center of this image is a single human embryonic stem cell colony that has been stained to highlight both the individual cells within the colony ...

This half of the screen illustrates mitosis—the division of a cell's nucleus. Along with cytokinesis ... of these daughter cells is identical. A human cell contains 46 chromosomes.

According to the researchers, "A significant portion of cancer cells are aneuploid, and this trait distinguishes them from ...

The very nature of these experiments meant that it was rare for all chromosomes in a given nucleus to be visualized ... chromosome number in human testicular cells to be 46. By today's standards ...

Researchers have gained new insights into the mechanism behind the spatial organization of DNA within the cells of early embryos. When an embryo is first formed after fertilization, each cell has the ...

Bioengineer Ankur Singh works to create functional models of the human immune system in the lab. (Credit: Ankur Singh) ...