Browse our latest Stem Cells and Regenerative Medicine articles

Hepatocytes proliferate to maintain a constant liver-to-body mass ratio during intermittent fasting.

The iPSCs derived from OA cartilage showed memory of disease which affect its chondrogenic potential and regulation at epigenetic and metabolic level may be used to control the regenerative potential of these iPSCs.

Mir155 showed a catabolic effect on osteogenesis and bone mass phenotype via interaction with the S1pr1 gene, suggesting inhibition of Mir155 as a potential approach to bone regeneration and bone defect healing.

Components of zygotic genome activation, Zelda and CLAMP, contribute to the proper specification of primordial germ cells in Drosophila embryos.

Cells of the mammalian cochlea can be reprogrammed to produce mechanosensory hair cells, but epigenetic changes in the cochlea make this process less efficient with age.

High-resolution multiphoton microscopy reveals coupling of blood vessel subtype with expanding osteoblasts at the bone regeneration interface, further highlighting the heterogeneity of oxygen microenvironment and its impact on cellular energy metabolism of bone and vessel forming cells.

Mettl3 post-transcriptionally reduces Fgf16 mRNA levels through an m⁶A-Ythdf2-dependen pathway, thereby controlling cardiomyocyte proliferation and heart regeneration.

SRSF10 directly binds genes functioning in spermatogonia and regulates their alternative splicing, the defect of which can lead to progenitor expansion failure.

A subset of intestinal precursor cells is able to sense mechanical forces at cell–cell junctions to control the production of specialised cells.

A highly efficient platform to engineer designer mutations in human stem cells using RNA-based delivery of prime editing components.