Although the genetic sequence is the same in every cell in the body, only a subset of those genes is expressed by each cell.

DNA and radiocarbon dating analyses of the bones are offering new insights into the ambitious Ice Age site constructed by ...

Researchers have uncovered a way to manipulate DNA at the atomic level using electric field gradients to control nitrogen nuclear spins. Their findings suggest that DNA could be used as both a storage ...

Every cell in your body contains the same genetic sequence, yet each cell expresses only a subset of those genes. These ...

Red arrows indicate the nuclear spin axes at the positions of the N3 nitrogen atoms on the guanine (G) bases. Due to the helical structure of DNA, there is an angular deviation in the orientation of ...

A team has unearthed new findings about what happens during the minutes and hours after a cell divides, expanding our understanding of human biology -- and potentially leading to better medicines.

The team works with giant unilamellar vesicles (GUVs), which are simple, cell-sized structures that mimic living cells. Using DNA nanorobots, the researchers were able to influence the shape and ...

Scientists develop DNA nanorobots capable of modifying artificial cells. Scientists at the University of Stuttgart have successfully used “DNA origami” to control the structure and function of ...

Scientists at the University of Stuttgart have succeeded in controlling the structure and function of biological membranes with the help of 'DNA origa ...

MIT chemists use generative AI to predict 3D genomic structures quickly, a process far faster than current methods.