Browse our latest Stem Cells and Regenerative Medicine articles

Zebrafish pigment cell progenitors are a heterogeneous class of adult tissue-resident cells which reiterate developmental signaling during melanocyte regeneration.

An automated synaptic phenotyping platform combined with small molecule screening reveals modulators of human neuron synapse formation.

Single-cell transcriptomic profiling of human bone marrow non-hematopoietic cells provides the basis for a comprehensive understanding of the cellular complexity of the hematopoietic stem cell (HSC) microenvironment and the intricate stroma-hematopoiesis crosstalk mechanisms.

YTHDC1 is an essential factor controlling satellite cell regenerative ability through multifaceted gene regulatory mechanisms in myoblast cells.

NFATc1 is identified as a molecular marker of articular cartilage progenitor cells and a transcriptional repressor of chondrocyte differentiation, providing fundamental insights into the origin and differentiation mechanism of articular chondrocytes.

The progenitor cells that form articular cartilage express a gene for a protein called NFATc1, which stops articular chondrocytes from developing too early in the joint.

A simple way to create larger volumes of fat tissue for food purposes may be to grow individual fat cells and mechanically combine them together (rather than directly growing the full tissue).

The transcriptomic and epigenetic landscapes of developing human articular and growth plate cartilage reveal putative gene regulatory networks governing lineage commitment and tissue homeostasis.

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.