Researchers from the Max Planck Institute of Immunobiology and Epigenetics in Freiburg and ETH Zurich have created the first integrated map detailing the metabolic and molecular changes in human blood ...

Now, a new study has shed new light on how our bones are maintained and repaired by stem cells—and how that process is disrupted with age and in situations of poor healing.

At Yale, researchers are using stem cells to grow brain organoids for psychiatric research, regenerate tissues for cancer patients and reprogram blood to reverse immune aging. Despite political ...

“Metabolism is more than just housekeeping in stem cells, especially embryonic stem cells,” said Jan Żylicz, a developmental biologist at the University of Copenhagen. “It’s a crucial pathway that ...

Health Scientists program stem cells to mimic first days of embryonic development Their “programmable” embryo-like structures, also known as embryoids, can be used to study the role of certain genes ...

First, it remains unclear what specific characteristics of E13.5 embryonic olfactory stem cells enable them to generate organoids in vitro that more closely resemble the in vivo olfactory epithelium, ...

Researchers have created a way to guide and control the development of stem cells into specific tissues and organs, opening the door to developing a means of one day tackling complex diseases like ...

Keywords: ESCs, 2-cell-like cells, Dux, MERVL, epigenetic modification, cell fate reprogramming Citation: Jia Yk, Yu Y and Guan L (2024) Corrigendum: Advances in understanding the regulation of ...

Background: Reactivation of the so-called fetal gene programs and pathways have been reported in failing hearts, however, it remains unclear whether this phenomenon is beneficial or detrimental to the ...

Scientists have discovered that the duration of BMP signal exposure crucially influences cell fate during embryonic development, a finding with significant implications for regenerative medicine. New ...

A novel chemical genetic approach reveals paralog-specific role of ERK1/2 in mouse embryonic stem cell fate control ...