In a leap forward for genetic and biomedical research, two scientists at the University of Missouri have developed a powerful ...

“We are finding the 3D structure of the genome,” said Satoshi Namekawa ... folded — and which genes and enhancers are paired together. In a mouse or human embryo, the cells that will one day produce ...

Researchers from the Göttingen Cluster of Excellence Multiscale Bioimaging (MBExC) have uncovered the 3D structure of the ...

as well as limitations on tissue structure complexity.” “Incorrect cell positioning is a big reason most 3D bioprinters fail to produce structures that accurately represent human tissue ...

Finally, researchers at Princeton University used artificial intelligence tools to turn the images into a 3D reconstruction of the tissue sample on a cell-by-cell basis. The wiring diagram and its ...

Researchers have published the first detailed picture and description of the 3-dimensional molecular structure ... 90% of cancerous cells has ignited efforts to design drugs to target it. Telomerase ...

The adult human brain contains hundreds of cell types that exhibit what the ... and chromatin conformation, the 3D structure of how chromosomes are tightly folded to fit into nuclei.

“The tissue still has enough structure ... human neurons. The new structures could interact thanks to producing neurotransmitters, and even created support cell networks within the 3D-printed ...

This structure gave cells ready access to the gel’s nutrients ... has already started building 3D models of human neurons and peripheral nerves for commercial drug testing.) ...

3D printers are changing ... It usually requires printing one cell at a time. Even printing 1,000 cells per second, it would take over a thousand years to make a single human heart.