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Homozygous silencing of T-box transcription factor EOMES leads to microcephaly with polymicrogyria and corpus callosum agenesis.

by Lekbir Baala, Sylvain Briault, Heather C Etchevers, Frédéric Laumonnier, Abdelhafid Natiq, Jeanne Amiel, Nathalie Boddaert, Capucine Picard, Aziza Sbiti, Abdellah Asermouh, Tania Attié-Bitach, Féréchté Encha-Razavi, Arnold Munnich, Abdelaziz Sefiani, Stanislas Lyonnet show all authors
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Nature Genetics (2007)
Volume: 39, Issue: 4, Pages: 454-456

Abstract

Neural progenitor proliferation and migration influence brain size during neurogenesis. We report an autosomal recessive microcephaly syndrome cosegregating with a homozygous balanced translocation between chromosomes 3p and 10q, and we show that a position effect at the breakpoint on chromosome 3 silences the eomesodermin transcript (EOMES), also known as T-box-brain2 (TBR2). Together with the expression pattern of EOMES in the developing human brain, our data suggest that EOMES is involved in neuronal division and/or migration. Thus, mutations in genes encoding not only mitotic and apoptotic proteins but also transcription factors may be responsible for malformative microcephaly syndromes.

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