Riham Salame scite author profile

Riham Salame

2Publications

0Citation Statements Received

46Citation Statements Given

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Affiliations

French National Centre for Scientific Research, Institute Curie, Centre National de la Recherche Scientifique

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Illuminati: a form of gene expression plasticity in Drosophila neural stem cells

Goupil

Heinen

Salame

et al. 2022

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While testing for genome instability in Drosophila as reported by unscheduled upregulation of UAS-GFP in cells that co-express GAL80 and GAL4, we noticed that, as expected, background levels were low in most developing tissues. However, GFP-positive clones were frequent in the larval brain. Most of these clones originated from central brain neural stem cells. Using imaging-based approaches and genome sequencing, we show that these unscheduled clones do not result from chromosome loss or mutations in GAL80. We have named this phenomenon ‘Illuminati’. Illuminati is strongly enhanced in brat tumors and is also sensitive to environmental conditions such as food content and temperature. Illuminati is suppressed by Su(var)2-10, but it is not significantly affected by several modifiers of position effect variegation or Gal4::UAS variegation. We conclude that Illuminati identifies a previously unknown type of functional instability that may have important implications in development and disease.

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Illuminati, a novel form of gene expression plasticity inDrosophilaneural stem cells

Goupil

Rossi

et al. 2021

Preprint

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With the aim of developing a genetic instability (GI) sensor in vivo we used the well-established Gal80/Gal4-UAS system combined with a visual GFP marker in Drosophila. We generated a collection of 25 Drosophila lines carrying GAL80 transgenes in different locations in all major chromosomes (X, Y, II, and III). We found low rates of GFP cells in epithelial tissues such as wing discs. In contrast, in larval brains, GFP positive clusters containing neural stem cells- also called neuroblasts (NBs)- and their offspring, were highly frequent. Using genetic and imaging-based approaches, we show that GFP NBs do not result from aneuploidy or mutations in the GAL80 gene, but rather by stochastic repression of GAL80 expression. We named this novel type of gene expression instability Illuminati. Importantly, Illuminati frequency is influenced by environmental and stress conditions. Further, we found that once established, Illuminati can be propagated over many cell cycles.

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Riham Salame

Illuminati: a form of gene expression plasticity in Drosophila neural stem cells

Illuminati, a novel form of gene expression plasticity inDrosophilaneural stem cells

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