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EGFP insertional mutagenesis reveals multiple FXR2P fibrillar states with differing ribosome association in neurons.

Biology open (2019-08-23)
Emily E Stackpole, Michael R Akins, Maria Ivshina, Anastasia C Murthy, Nicolas L Fawzi, Justin R Fallon
RÉSUMÉ

RNA-binding proteins (RBPs) function in higher-order assemblages such as RNA granules to regulate RNA localization and translation. The Fragile X homolog FXR2P is an RBP essential for formation of neuronal Fragile X granules that associate with axonal mRNA and ribosomes in the intact brain. However, the FXR2P domains important for assemblage formation in a cellular system are unknown. Here we used an EGFP insertional mutagenesis approach to probe for FXR2P intrinsic features that influence its structural states. We tested 18 different in-frame FXR2PEGFP fusions in neurons and found that the majority did not impact assemblage formation. However, EGFP insertion within a 23 amino acid region of the low complexity (LC) domain induced FXR2PEGFP assembly into two distinct fibril states that were observed in isolation or in highly-ordered bundles. FXR2PEGFP fibrils exhibited different developmental timelines, ultrastructures and ribosome associations. Formation of both fibril types was dependent on an intact RNA-binding domain. These results suggest that restricted regions of the LC domain, together with the RNA-binding domain, may be important for FXR2P structural state organization in neurons.

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Monoclonal Anti-γ-Actin antibody produced in mouse, clone 2-2.1.14.17, purified from hybridoma cell culture