2017
DOI: 10.1016/j.ydbio.2016.12.005
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Master regulators in development: Views from the Drosophila retinal determination and mammalian pluripotency gene networks

Abstract: Among the mechanisms that steer cells to their correct fate during normal development, master regulatory networks are unique in their sufficiency to trigger a developmental program outside of its normal context. In this review we discuss the key features that underlie master regulatory potency during normal and ectopic development, focusing on two examples, the retinal determination gene network (RDGN) that directs eye development in the fruit fly and the pluripotency gene network (PGN) that maintains cell fat… Show more

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Cited by 64 publications
(60 citation statements)
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“…These were shown to be innervated by the 1 st DO (Lacalli, 2002). Several studies focused on transcription factors known to be involved in development of vertebrate and invertebrate visual systems, such as the members of the Drosophila retinal determination gene network (RDGN) (Davis and Rebay, 2017). Expression of amphioxus RDGN orthologous genes belonging to Pax, Six, Eya and Dach families, respectively, was investigated by whole mount in situ hybridization at various stages of embryonic development.…”
Section: Rhabdomeric Photoreceptorsmentioning
confidence: 99%
“…These were shown to be innervated by the 1 st DO (Lacalli, 2002). Several studies focused on transcription factors known to be involved in development of vertebrate and invertebrate visual systems, such as the members of the Drosophila retinal determination gene network (RDGN) (Davis and Rebay, 2017). Expression of amphioxus RDGN orthologous genes belonging to Pax, Six, Eya and Dach families, respectively, was investigated by whole mount in situ hybridization at various stages of embryonic development.…”
Section: Rhabdomeric Photoreceptorsmentioning
confidence: 99%
“…Therefore, whereas Tbx1 could in principle contribute to Dach1 expression, we must invoke other mechanisms accounting for its early widespread expression and selective maintenance in the SHF. Notably, together with Pax , Six and Eya family genes, Dach homologs form a conserved "retinal network" (Davis and Rebay, 2017;Kumar, 2009) . In the mouse, Six and Eya homologs have been implicated in early SHF development (Guo et al, 2011;Zhou et al, 2017) , opening the possibility that conserved elements of the retinal network contribute to SHF-specific gene expression.…”
mentioning
confidence: 99%
“…Some of these regulators were predicted to be important in both cell types, but exhibited differential targeting patterns between the PCeE and the GCeE networks, indicating rewiring of regulators between the cell types. This highlights apparent redundancy and/or cooperation of regulators which control similar cell type specific functions and shows the potential importance of regulatory rewiring in the evolution of cell type specific pathways and functions, something which has been shown previously to occur (83,84). Functional analysis of the targets of the most rewired regulators (Etv4, let-7e-5p, miR-151-3p, Myb and Rora) highlights an overrepresentation of metabolism associated targets in the PCeE network and cell cycle associated targets in the GCeE network.…”
Section: Discussionmentioning
confidence: 54%