FB2026_02 , released June 18, 2026
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Citation
De Donno, M.D., Puricella, A., D'Attis, S., Specchia, V., Bozzetti, M.P. (2023). Expression of Transposable Elements in the Brain of the Drosophila melanogaster Model for Fragile X Syndrome.  Genes (Basel) 14(5): 1060.
FlyBase ID
FBrf0256579
Publication Type
Research paper
Abstract
Fragile X syndrome is a neuro-developmental disease affecting intellectual abilities and social interactions. Drosophila melanogaster represents a consolidated model to study neuronal pathways underlying this syndrome, especially because the model recapitulates complex behavioural phenotypes. Drosophila Fragile X protein, or FMRP, is required for a normal neuronal structure and for correct synaptic differentiation in both the peripheral and central nervous systems, as well as for synaptic connectivity during development of the neuronal circuits. At the molecular level, FMRP has a crucial role in RNA homeostasis, including a role in transposon RNA regulation in the gonads of D. m. Transposons are repetitive sequences regulated at both the transcriptional and post-transcriptional levels to avoid genomic instability. De-regulation of transposons in the brain in response to chromatin relaxation has previously been related to neurodegenerative events in Drosophila models. Here, we demonstrate for the first time that FMRP is required for transposon silencing in larval and adult brains of Drosophila "loss of function" dFmr1 mutants. This study highlights that flies kept in isolation, defined as asocial conditions, experience activation of transposable elements. In all, these results suggest a role for transposons in the pathogenesis of certain neurological alterations in Fragile X as well as in abnormal social behaviors.
PubMed ID
PubMed Central ID
PMC10218032 (PMC) (EuropePMC)
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    Language of Publication
    English
    Additional Languages of Abstract
    Parent Publication
    Publication Type
    Journal
    Abbreviation
    Genes (Basel)
    Title
    Genes
    ISBN/ISSN
    2073-4425
    Data From Reference
    Alleles (2)
    Genes (2)
    Human Disease Models (1)
    Insertions (1)