Journal article
Altered brain-wide auditory networks in a zebrafish model of fragile X syndrome
L Constantin, RE Poulsen, LA Scholz, IA Favre-Bulle, MA Taylor, B Sun, GJ Goodhill, GC Vanwalleghem, EK Scott
BMC Biology | BMC | Published : 2020
Open access
Abstract
Background: Loss or disrupted expression of the FMR1 gene causes fragile X syndrome (FXS), the most common monogenetic form of autism in humans. Although disruptions in sensory processing are core traits of FXS and autism, the neural underpinnings of these phenotypes are poorly understood. Using calcium imaging to record from the entire brain at cellular resolution, we investigated neuronal responses to visual and auditory stimuli in larval zebrafish, using fmr1 mutants to model FXS. The purpose of this study was to model the alterations of sensory networks, brain-wide and at cellular resolution, that underlie the sensory aspects of FXS and autism. Results: Combining functional analyses with..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
Support was provided by Simons Foundation Autism Research Initiative Pilot (399432) and Research (625793) awards, an NHMRC Project Grant (APP1066887), and two ARC Discovery Project Grants (DP140102036 & DP110103612) to E.K.S.; an EMBO Long-Term Fellowship to G.C.V.; a fellowship from the Human Frontier Science Program (LT000146/2016) to M.A.T.; an Australian Postgraduate Award to R.E.P.; and a University of Queensland Postgraduate Scholarship to L.A.S.