The latest imaging method from the Broad Institute uncovers structural disruptions in the nucleus associated with progeria at super-resolution.

A study published today in the journal Developmental Cell uncovers new insights into how the heart forms during the earliest stages of embryonic development.

Imagine cells navigating through a complex maze, guided by chemical signals and the physical landscape of their environment.

A new concept of kinetic modules in biochemical networks could revolutionize the understanding of how these networks function ...

New tissue-derived organoid model: A next-generation organoid model, composed of three liver cell types – adult hepatocytes, cholangiocytes, and liver mesenchymal cells – reconstructs the liver ...

As global demand for wood reforestation efforts continues to grow, this age-old method remains a linchpin of sustainable tree ...

A team of scientists from the San Raffaele-Telethon Institute for Gene Therapy (SR-Tiget) in Milan, Italy, has identified a ...

A team of scientists from the San Raffaele-Telethon Institute for Gene Therapy (SR-Tiget) in Milan, Italy, has identified a ...

In a time of regulatory and scientific upheaval, stem cells are facing, and creating, new challenges, says regenerative ...

Advances in human stem cell-derived disease models have the potential to augment our predictive power for the efficacy and ...

Sickle cell disease (SCD) altered CD8+ T-cell chromatin architecture, triggering ferroptosis and weakening antitumor immunity ...

Researchers led by Maike Sander, scientific director of the Max Delbrück Center, have developed a vascularized organoid model ...