University scientists have identified a gene responsible for initiating the normal development of tooth roots in mammals. Researchers made this discovery by creating a mouse lacking the gene ...

A newly discovered pair of stem cell lineages drives the formation of both tooth roots and the bone that anchors them. Understanding how these cells switch roles could pave the way for regenerating ...

Tooth root development relies on precise coordination of cellular signals, yet the underlying mechanisms remain unclear. Researchers have uncovered how two proteins, Gli2 and Gli3, work together to ...

However, the outer layer of HERS extended without the root, and the mutant molars finally erupted. The periodontal tissues invaded extensively into the dental pulp. These results indicate that there ...

Scientists have discovered the stem cells, CXCL12, that anchor teeth to the bone, opening up new possibilities for ...

BUFFALO, N.Y. -- University at Buffalo scientists have identified a gene responsible for initiating the normal development of tooth roots in mammals. Researchers made this discovery by creating a ...

Two distinct stem cell lineages that drive tooth root and alveolar bone formation have been identified by researchers from Science Tokyo. Using genetically modified mice and lineage-tracing techniques ...

Two distinct stem cell lineages that drive tooth root and alveolar bone formation have been identified by researchers from Science Tokyo. Using genetically modified mice and lineage-tracing techniques ...

Schematic diagram illustrating how Gli2 and Gli3 regulate Acvr2b-mediated TGF-β/SMAD signaling to control proliferation and differentiation of dental mesenchymal progenitor cells during tooth root ...

Scientists are exploring how the body's own stem cells can rebuild teeth and supporting bone. Research identifies specific ...