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Merck

Modelling genetic mosaicism of neurodevelopmental disorders in vivo by a Cre-amplifying fluorescent reporter.

Nature communications (2020-12-05)
Francesco Trovato, Riccardo Parra, Enrico Pracucci, Silvia Landi, Olga Cozzolino, Gabriele Nardi, Federica Cruciani, Vinoshene Pillai, Laura Mosti, Andrzej W Cwetsch, Laura Cancedda, Laura Gritti, Carlo Sala, Chiara Verpelli, Andrea Maset, Claudia Lodovichi, Gian Michele Ratto
ABSTRAKT

Genetic mosaicism, a condition in which an organ includes cells with different genotypes, is frequently present in monogenic diseases of the central nervous system caused by the random inactivation of the X-chromosome, in the case of X-linked pathologies, or by somatic mutations affecting a subset of neurons. The comprehension of the mechanisms of these diseases and of the cell-autonomous effects of specific mutations requires the generation of sparse mosaic models, in which the genotype of each neuron is univocally identified by the expression of a fluorescent protein in vivo. Here, we show a dual-color reporter system that, when expressed in a floxed mouse line for a target gene, leads to the creation of mosaics with tunable degree. We demonstrate the generation of a knockout mosaic of the autism/epilepsy related gene PTEN in which the genotype of each neuron is reliably identified, and the neuronal phenotype is accurately characterized by two-photon microscopy.

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Sigma-Aldrich
Anti-Cre antibody, Mouse monoclonal, clone 7-23, purified from hybridoma cell culture
Sigma-Aldrich
Anti-NeuN Antibody, clone A60, clone A60, Chemicon®, from mouse