CAMBRIDGE, England & BOSTON--(BUSINESS WIRE)--bit.bio, a synthetic biology company focused on human cells, has achieved a milestone in the manufacture of human cells. Based on their opti-ox TM 1 - ...

Life begins with a tiny orchestra of stem cells, setting the stage for the body’s grand symphony of development. As the performance unfolds, a dynamic interplay of factors takes center stage, ...

Prof. Roger Pedersen, Stanford University, and Dr. Thomas Moreau, bit.bio, will give an overview of the innovative history and recent developments in transcription factor-mediated cellular ...

Jonas Salk quietly built the polio vaccine through rigorous, methodical work in Pittsburgh: treating patients, refinin ...

This graphical abstract outlines how the pioneer transcription factor FOXA works with another transcription factor PRDM1 during liver formation to prevent cells from following incorrect development ...

Astrocytes in the adult brain show cellular plasticity; however, whether they have the potential to generate multiple lineages remains unclear. Here, we perform in vivo screens and identify DLX2 as a ...

Using a circuit-based system, scientists determined the ideal transcription factor levels to promote the successful reprogramming of fibroblasts into induced pluripotent stem cells. Scientists ...

Scientists at The Scripps Research Institute (TSRI) have found a new approach to the "reprogramming" of ordinary adult cells into stem cells. In a study published today in an Advance Online paper in ...

Transcription factors are the most powerful genes in our body. They are master regulators and have been implicated in our biggest diseases, even aging itself. Yet, many in the pharmaceutical industry ...