The molecular regulatory mechanisms that control the interaction between mesenchymal stem cells and transit amplifying cells to maintain tissue homeostasis.

The molecular identity of bi-fated tendon-to-bone attachment cells, which display a mixture of transcriptomes of two neighboring cell types, enables the formation of the unique transitional tissue of the enthesis.

Emx2 is not required for sibling HCs to acquire their designated locations within the neuromast, inferring that Emx2 mediates opposite HC orientation by changing location of hair bundle establishment.

An optogenetic dual-color Ca²⁺-imaging approach shows how submucosal pacemaker-cells, interstitial cells of Cajal, modulate smooth-muscle responses and drive colonic motility via complex Ca²⁺ signaling.

Developmental defects of the cochlea caused by dysregulation of sonic hedgehog signaling are the potential etiology for hearing loss in a group of ciliopathies with defective ciliogenesis.

Introgression makes hemiplasy more likely, and the probability of hemiplasy incorporating incomplete lineage sorting (ILS) and introgression can be estimated using the presented simulation software.

A new nomenclature convention for mammalian cell types utilizing shared taxonomies and quantitative cell features is applied to high-quality, open data from the mouse and human brain.

Deep imaging, machine-learning-based segmentation, and tissue annotation resulted in a developmental series of 3D digital ovules with cellular resolution allowing next-level analysis of the ontogenesis of this complex organ.