Formerly Somite AI, the rebranded company aims to broaden the regenerative medicine landscape by building AI models that ...

After a decade of work, scientists have completed a molecular model of the human spliceosome, an incredibly complex cellular machine. When an active gene is expressed in a cell, it is transcribed into ...

Individual mammalian cells contain billions of protein molecules, which must be synthesized, deployed, and removed with ...

Machine learning can help improve drug production from cell culture by fine-tuning and quantifying cell culture media experiments. That’s the view of Bei-Wen Ying, PhD, a researcher from the ...

Making a personalized T cell therapy for cancer patients currently takes at least six months. Scientists have shown that the laborious first step of identifying tumor-reactive T cell receptors for ...

Some parts of our bodies bounce back from injury in fairly short order. The outer protective layer of the eye—called the ...

Imagine predicting the exact finishing order of the Kentucky Derby from a still photograph taken 10 seconds into the race. That challenge pales in comparison to what researchers face when trying to ...

When viruses infect the body's cells, those cells face a difficult problem. How can they destroy viruses without harming themselves? Scientists at University of Utah Health have found an answer by ...

According to the developer, the OmniVance ™ cell can reduce the time spent on repetitive machine tending tasks by up to 60%, freeing workers to take on more rewarding, high-value jobs. “Machine ...

Inside every living cell, proteins and membranes are in constant motion, reshaping, colliding, and flexing as they keep an ...