2017
DOI: 10.1371/journal.pgen.1007096
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Role of co-repressor genomic landscapes in shaping the Notch response

Abstract: Repressors are frequently deployed to limit the transcriptional response to signalling pathways. For example, several co-repressors interact directly with the DNA-binding protein CSL and are proposed to keep target genes silenced in the absence of Notch activity. However, the scope of their contributions remains unclear. To investigate co-repressor activity in the context of this well defined signalling pathway, we have analysed the genome-wide binding profile of the best-characterized CSL co-repressor in Dros… Show more

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Cited by 20 publications
(19 citation statements)
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“…Moreover, rescue of repression by WT RBPJ, but not a SHARP-binding mutant, strongly suggests that SHARP is the primary core-pressor that mediates repression at Notch target genes in lymphocytes and, likely, other cells and tissues, which is consistent with previous in vivo studies of SHARP in mice ( Surendran et al, 2010 ; Tsuji et al, 2007 ; Kuroda et al, 2003 ). These data are also consistent with research in other experimental systems showing that loss of RBPJ results in transcriptional derepression at some, but not all, Notch target genes ( Chan et al, 2017 ; Castel et al, 2013 ). Why RBPJ-SHARP corepressor complexes are recruited to some Notch targets but not others remains an open question.…”
Section: Discussionsupporting
confidence: 91%
“…Moreover, rescue of repression by WT RBPJ, but not a SHARP-binding mutant, strongly suggests that SHARP is the primary core-pressor that mediates repression at Notch target genes in lymphocytes and, likely, other cells and tissues, which is consistent with previous in vivo studies of SHARP in mice ( Surendran et al, 2010 ; Tsuji et al, 2007 ; Kuroda et al, 2003 ). These data are also consistent with research in other experimental systems showing that loss of RBPJ results in transcriptional derepression at some, but not all, Notch target genes ( Chan et al, 2017 ; Castel et al, 2013 ). Why RBPJ-SHARP corepressor complexes are recruited to some Notch targets but not others remains an open question.…”
Section: Discussionsupporting
confidence: 91%
“…Moreover, reconstitution of repression by wild-type RBPJ, but not a SHARP-binding mutant, strongly suggests that SHARP is the primary corepressor that mediates repression via RBPJ at Notch target genes in lymphocytes, and likely other cells and tissues, which is consistent with previous in vivo studies of SHARP in mice 8,39,40 . These data are also consistent with research in other experimental systems that show that loss of CSL results in transcriptional derepression at some, but not all, Notch target genes 41,42 . Why RBPJ-SHARP corepressor complexes are recruited to some Notch targets, but not others, remains an open question.…”
Section: Discussionsupporting
confidence: 91%
“…Examination of +6hAPF wings revealed no changes in the spatial pattern of Dl enhancer activity relative to −6hAPF, indicating that ectopic enhancer activation in usp clones does not reflect incipient changes in enhancer activity. Recently, EcR binding sites were shown to overlap with those for the Notch regulator, Hairless, supporting a potential role of EcR in regulating spatial patterns of gene expression (45). We conclude that EcR regulates both temporal and spatial patterns of gene expression.…”
Section: Discussionmentioning
confidence: 98%