Fate mapping analysis shows that not bona fide Langerhans cells but their ‘look-alikes’ dermal Langerhans cell-like cells migrate to the lymph nodes.

Inducible fate-mapping analysis demonstrates that neither microglia, CD11c⁺ activated microglia nor border-associated macrophages are replenished by bone marrow-derived cells in Alzheimer’s disease.

Embryonic fate-mapping approaches in zebrafish, Xenopus and lamprey illuminate the evolutionary origins of carotid body glomus cells and pulmonary neuroendocrine cells.

Flow cytometric isolation and fate mapping shows that neurosphere-initiating cells are highly mitotically active and persist only transiently in vivo, and are distinct from quiescent, long-lived neural stem cells.

Fate-mapping, combined with gain- and loss-of-function approaches, reveal the role of BMP signalling in the spatio-temporal development of the tuberal hypothalamus, a critically important brain region.

A combination of genetic fate-mapping and parabiotic experiments reveals the chronological expansion of yolk-sac-derived renal tissue-resident macrophages with age by cellular proliferation and recruitment from circulating progenitors.

Cell fate-mapping with genetically-modified mouse models and cellular markers demonstrates that sensory hair cells in the vestibular portion of the inner ear are a dynamic population in adult mice that undergo cell death and replacement under normal conditions.

The specification of a very small number of progenitor cells with competence to adapt their neurogenic output to different probabilistic rules underlies the generation of distinct cortical cytoarchitectures.

Interaction strength in Notch signaling determines lateral inhibition patterning and drives fate in the unidimensional cell arrangement of the zebrafish notochord.