2020
DOI: 10.1101/2020.03.15.992479
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Autism and Williams syndrome: dissimilar socio-cognitive profiles with similar patterns of abnormal gene expression in the blood

Abstract: Autism Spectrum Disorders (ASD) and Williams Syndrome (WS) are complex cognitive conditions exhibiting quite opposite features in the social domain: whereas people with ASD are mostly hyposocial, subjects with WS are usually reported as hypersocial. At the same time, ASD and WS share some common underlying behavioral and cognitive deficits. It is not clear, however, which genes account for the attested differences (and similarities) in the socio-cognitive domain. In this paper we adopted a comparative-molecula… Show more

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Cited by 3 publications
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“…In terms of potential mediators, 5 out of 12 DMPs with a significant mediation effect (ACME and total effect) were mapped to genes involved in neuron functions and some associated to neurodevelopmental disorders: MYOM2 (cg08174789), RB1 (cg13389575), C10orf118 (cg05405872), STXBP6 (cg11734401), and TOR1AIP2 (cg07761912) . [37][38][39] C10orf118 and STXBP6 are involved with vesicle trafficking and signaling 40 and are associated with dendritic protein localization in neurons. 41 TOR1AIP1 encodes cofactors for the ATPase TorsinA, important to maintain developing neurons, during neuronal differentiation.…”
Section: Discussionmentioning
confidence: 99%
“…In terms of potential mediators, 5 out of 12 DMPs with a significant mediation effect (ACME and total effect) were mapped to genes involved in neuron functions and some associated to neurodevelopmental disorders: MYOM2 (cg08174789), RB1 (cg13389575), C10orf118 (cg05405872), STXBP6 (cg11734401), and TOR1AIP2 (cg07761912) . [37][38][39] C10orf118 and STXBP6 are involved with vesicle trafficking and signaling 40 and are associated with dendritic protein localization in neurons. 41 TOR1AIP1 encodes cofactors for the ATPase TorsinA, important to maintain developing neurons, during neuronal differentiation.…”
Section: Discussionmentioning
confidence: 99%