Vanessa Paul scite author profile

Vanessa Paul

2Publications

38Citation Statements Received

187Citation Statements Given

How they've been cited

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131

173

Affiliations

Institute for Molecular and Cellular Biology, Max Planck Institute for Biophysical Chemistry, Max Planck Society

Publications

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Scratch2 Modulates Neurogenesis and Cell Migration Through Antagonism of bHLH Proteins in the Developing Neocortex

Paul

Tonchev

Henningfeld

et al. 2012

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Scratch genes (Scrt) are neural-specific zinc-finger transcription factors (TFs) with an unknown function in the developing brain. Here, we show that, in addition to the reported expression of mammalian Scrt2 in postmitotic differentiating and mature neurons in the developing and early postnatal brain, Scrt2 is also localized in subsets of mitotic and neurogenic radial glial (RGP) and intermediate (IP) progenitors, as well as in their descendants-postmitotic IPs and differentiating neurons at the border subventricular/intermediate zone. Conditional activation of transgenic Scrt2 in cortical progenitors in mice promotes neuronal differentiation by favoring the direct mode of neurogenesis of RGPs at the onset of neurogenesis, at the expense of IP generation. Neuronal amplification via indirect IP neurogenesis is thereby extenuated, leading to a mild postnatal reduction of cortical thickness. Forced in vivo overexpression of Scrt2 suppressed the generation of IPs from RGPs and caused a delay in the radial migration of upper layer neurons toward the cortical plate. Mechanistically, our results indicate that Scrt2 negatively regulates the transcriptional activation of the basic helix loop helix TFs Ngn2/NeuroD1 on E-box containing common target genes, including Rnd2, a well-known major effector for migrational defects in developing cortex. Altogether, these findings reveal a modulatory role of Scrt2 protein in cortical neurogenesis and neuronal migration.

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Evaluation of Available Data Sources to Prioritize Parishes for Arsenic Monitoring and Outreach Related to Private Well Drinking Water

Katner

Lackovic

Streva

et al. 2015

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While the data reviewed enabled preliminary identification of parishes in need of monitoring and outreach, data limitations (particularly, a lack of statewide well water quality data) prevent a comprehensive evaluation of well water arsenic hazards and private well water use. A large number of unregistered wells further impede risk determination. Reliance on existing data sources is necessary, but development of metadata documentation is essential to prevent data misinterpretation. Increased outreach and policies to promote or mandate private well testing and reporting are needed to enable a comprehensive private well water tracking system.

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Vanessa Paul

Scratch2 Modulates Neurogenesis and Cell Migration Through Antagonism of bHLH Proteins in the Developing Neocortex

Evaluation of Available Data Sources to Prioritize Parishes for Arsenic Monitoring and Outreach Related to Private Well Drinking Water

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