the most complex and intricate molecular machine in human biology. The vast majority of human genes -- more than nine in ten ...

These capabilities unlock new research possibilities in cell biology, regenerative medicine, and organoids research. Setting New Standards in 3D Imaging Building upon the proven success of the HT-X1™, ...

Researchers unveil the inner mechanisms of the most intricate and complex molecular machine in human biology. Scientists at ...

Biology at other schools may be considered traditional, but at RIT it’s anything but. Smartphones that monitor heart health via an ECG. Biodegradable plastics that don’t harm the environment. Urban ...

A new analysis led by researchers at Washington University School of Medicine in St. Louis has revealed detailed 3D maps of the internal structures of multiple tumor types. These cancer atlases reveal ...

The new compound was developed after Gerald Crabtree, MD, a professor of development biology, began to muse over the ...

In the rapidly advancing field of computational biology, a newly peer-reviewed review explores the transformative role of deep learning techniques in revolutionizing protein structure prediction.

Traditional organoid culture can present challenges for the downstream analysis of single organoids. In this webinar, Dr. Allysa Stern will discuss a unique workflow that enables clonal organoid ...

The skin on our lips is distinctly different and more complex than other skin on our bodies, and primary lip cells are hard to acquire, which holds back basic research that could help improve ...

It could change the way we look at stem cell biology, neuroscience, and the pathogenesis of many neurological and psychiatric disorders.” Unlike traditional 3D-printing methods that stack layers ...

Tomocube, a global leader in 3D label-free imaging and analysis ... These capabilities unlock new research possibilities in cell biology, regenerative medicine, and organoids research.