Browse our latest Stem Cells and Regenerative Medicine articles

RNA-protein multiome approach helps to discover that the posttranscriptional regulation of the translational machinery is crucial for the fidelity of cortical development.

Chronic fat overload triggers the conversion of quiescent biliary epithelial cells into proliferative progenitors through an E2F-dependent mechanism.

Chromatin gradually rearranges during epidermal stem cell differentiation, while transcription of a differentiation-associated gene is extremely dynamic.

The stanniocalcin-1-dependent immunosuppressive roles of mesenchymal stem cell on chimeric antigen receptor modified T cell therapy.

Chondrocytes derived from induced pluripotent stem cells with the dysplasia-causing TRPV4 mutations, V620I and T89I mutation, were resistant to BMP4-induced hypertrophy, suggesting a mechanism underlying the effects of TRPV4 dysfunction on the severity of skeletal dysplasia.

Making human stem cells express certain transcription factors can convert them into cells that are similar to ovarian granulosa cells, and perform several important functions of the ovary.

In vitro model of germline specification in marmosets established by directed differentiation of induced pluripotent stem cells, which transcriptionally resemble pre-migratory primordial germ cells in vivo.

Age-related tendon degeneration is initiated by loss of tenocytes associated with synthesis of high-turnover rate proteoglycans and glycoproteins.

A user-friendly, and modular, 3D skeletal muscle culture assay enables iterative studies of murine muscle stem cell pool size regulation, functional heterogeneity, return to quiescence, and age-associated functional defects within a 96-well footprint.

After fasting, hepatocytes proliferate to help the liver grow back to its original size.