The oncogenic transcription factor TAL1/SCL is aberrantly expressed in over 40% of cases
of human T cell acute lymphoblastic leukemia (T-ALL), emphasizing its importance in the …

Cellular decision-making is mediated by a complex interplay of external stimuli with the
intracellular environment, in particular transcription factor regulatory networks. Here we have …

The control of differential gene expression is central to all metazoan biology.
Haematopoiesis represents one of the best understood developmental systems where …

Background Regulated gene expression controls organismal development, and variation in
regulatory patterns has been implicated in complex traits. Thus accurate prediction of …

Hematopoietic stem and progenitor cells (HSPCs) rely on a complex interplay among
transcription factors (TFs) to regulate differentiation into mature blood cells. A heptad of TFs …

Transcription factor (TF) networks determine cell-type identity by establishing and
maintaining lineage-specific expression profiles, yet reconstruction of mammalian regulatory …

Hematopoiesis represents one of the paradigmatic systems for studying stem cell biology,
but our understanding of how the hematopoietic system develops during embryogenesis is …

OBJECTIVE: Key regulators of blood stem cell differentiation into the various mature
hematopoietic lineages are commonly encoded by transcription factor genes. Elucidation of …

The Scl (Tal1) gene encodes a helix-loop-helix transcription factor essential for
hematopoietic stem cell and erythroid development. The Scl+ 40 enhancer is situated …

Transcription factors (TFs) have long been recognized as powerful regulators of cell‐type
identity and differentiation. As TFs function as constituents of regulatory networks …