20 research outputs found
RUNX genes find a niche in stem cell biology.
The RUNX family of transcriptional regulators are well conserved throughout the animal kingdom, from the simple nematode worm Caenorhabditis elegans to vertebrates. Interest in the RUNX genes emerged principally as a result of the finding that chromosomal translocations disrupting RUNX protein function are observed in a large number of patients suffering with acute myeloid leukemia (AML). In the 20 years that RUNX genes have been under investigation, they have emerged as central players in the control of developmental decisions between proliferation and differentiation in a wide variety of biological situations. This review focuses on recent data highlighting the roles of RUNX genes in stem cells and illustrates the diversity of processes in which the RUNX proteins play a critical role. In particular, we focus on the role of RUNX1 in hematopoietic stem cells (HSCs) and hair follicle stem cells (HFSCs) and the importance of the solo C. elegans RUNX factor rnt-1 in stem cell proliferation in the worm. Observations in a variety of stem cell systems have developed to the point where useful comparisons can be made, from which guiding principles may emerge
The UNC-4 homeobox protein represses mab-9 expression in DA motor neurons in Caenorhabditis elegans.
The T-box transcription factor mab-9 has been shown to be required for the correct fate of the male-specific blast cells B and F, normal posterior hypodermal morphogenesis, and for the correct axon migration of motor neurons that project circumferential commissures to dorsal muscles. In this study, an RNAi screen designed to identify upstream transcriptional regulators of mab-9 showed that silencing of unc-4 (encoding a paired-class homeodomain protein) increases mab-9::gfp expression in the nervous system, specifically in posterior DA motor neurons. Over-expression of unc-4 from a heat-shock promoter has the opposite effect, causing repression of mab-9 in various cells. We find that mab-9 expression in unc-37 mutants is also elevated in DA motor neurons, consistent with known roles for UNC-37 as a co-repressor with UNC-4. These results identify mab-9 as a novel target of the UNC-4/UNC-37 repressor complex in motor neurons, and suggest that mis-expression of mab-9 may contribute to the neuronal wiring defects in unc-4 and unc-37 mutants
FörvÀntningar pÄ megaprojekt : Kommunala strategier i Norrköping för OstlÀnken
NÀr staten rullar ut sin matta av infrastruktursatsningar stÀller det höga krav pÄ de angörande kommunerna. Men det skapar ocksÄ förvÀntningar som utgör en helt ny och omfattande grund för planering. I Norrköping förbereds nu för OstlÀnken vilket innebÀr djupgÄende effekter pÄ sÄvÀl organisation som processer, Àven om mÄnga ideal för samtidens stadsutveckling kÀnns igen. Brita Hermelin, Fredrik Wallin och Sara Gustafsson beskriver projektet och de lokala planeringsförberedelserna