During hippocampal neuron differentiation, the expression of critical inducers of non-
neuronal cell lineages must be efficiently silenced. Runx2 transcription factor is the master …

During hippocampal neuron differentiation, the expression of critical inducers of non-
neuronal cell lineages must be efficiently silenced. Runx2 transcription factor is the master …

Accumulating evidence indicates that epigenetic control of gene expression plays a
significant role during cell lineage commitment and subsequent cell fate maintenance. Here …

The transcriptional regulator Runx2 (runt-related transcription factor 2) has essential but
distinct roles in osteoblasts and chondrocytes in skeletal development. However, Runx2 …

Runx2 is a developmentally regulated gene in vertebrates and is essential for bone
formation and skeletal homeostasis. The induction of runx2-P1 isoform transcripts is a …

The vertebrate skeleton forms via two distinct modes of ossification, membranous and
endochondral. Osteoblasts are also heterogeneous in embryonic origin; bone formed by …

Epigenetic mechanisms mediate the acquisition of specialized cellular phenotypes during
tissue development, maintenance and repair. When phenotype‐committed cells transit …

RUNX2, an essential transcription factor for osteoblast differentiation and bone formation is
activated by ERK/MAP kinase‐dependent phosphorylation. However, relationship between …

Epigenetic mechanisms mediate the acquisition of specialized cellular phenotypes during
tissue development, maintenance and repair. When phenotype-committed cells transit …

Transcriptional mechanisms controlling Runx2 levels are critical for its osteogenic function
during osteoblast differentiation. Here we examine the chromatin organization of the …