Browse our latest Stem Cells and Regenerative Medicine articles

An iterative self-assembling algorithm identifies the intrinsic structures in single-cell transcriptomic data and helps to discover new cell populations that are undetectable by existing methods.

Mitotic labeling defines a change in cell division kinetics from growth to homeostasis and identifies slowly cycling cells in the adult tendon.

A microphysiological system (retina-on-a-chip) shows the potential to promote drug development and provide new insights into the underlying pathology of retinal diseases.

Researchers have combined organ-on-a-chip engineering with the benefits of organoids to make improved models of the human retina.

Proliferating muscle stem cells in overloaded muscle require special molecular mechanisms that differ from well-known myogenic differentiation model.

Perivascular extracellular vesicles induce bone repair, and do so via tetraspanin binding to recipient skeletal progenitor cells.

Mitochondrial dysfunction in neural stem cells and brain tumour cells decreases proliferation and affects the generation of neuronal diversity and tumour heterogeneity.

Human chemically induced liver progenitors (hCLiPs), which are generated from primary human hepatocytes, exhibit the potential to repopulate injured livers of host mice with efficiency > 90%.

The analysis of injury-reactivated tectal radial glia in zebrafish reveals a stochastic cell-cycle entry and cell-state-dependent regulation of the balance between neurogenesis and gliogenesis.

Telomeric TRF1 controls the transcriptional programmes of pluripotent stem cells by recruiting PRC2 to pluripotency and differentiation genes by controlling the expression of those gene sites and the binding of TERRA RNAs to them.