[ad_1]
Naisbitt, S. et al. Shank, a new family of postsynaptic density proteins that binds to the NMDA / PSD-95 / GKAP receptor complex and cortactin. neuron 23569-582 (1999).
Jiang, Y.H. & Ehlers, M.D. Modeling autism by SHANK gene mutations in mice. neuron 78, 8-27 (2013).
Moessner, R. et al. Contribution of SHANK3 mutations to autism spectrum disorder. A m. J. Hum. Broom. 811289-1297 (2007).
Phelan, K. & McDermid, H. E. Deletion syndrome 22q13.3 (Phelan-McDermid syndrome). Mol. Syndromol. 2, 186-201 (2012).
Betancur, C. & Buxbaum, J. D. SHANK3 haploinsufficiency: a "very common" but under-diagnosed and highly penetrating monogenic cause of autism spectrum disorders. Mol. Autism 417 (2013).
Sanders, S.J. et al. Overview of genomic architecture and genomic biology of autism spectrum disorders from 71 at-risk loci. neuron 87, 1215-1233 (2015).
Leblond, C.S. et al. Meta-analysis of SHANK mutations in autism spectrum disorders: a severity gradient in cognitive impairment. PLoS Genet. ten, e1004580 (2014).
Frank, Y. et al. A prospective study of neurological abnormalities in Phelan-McDermid syndrome. J. Rare Disord. 5, 1-13 (2017).
Chen, J.A., Peñagarikano, O., Belgard, T.G., Swarup, V. & Geschwind, D.H.The Emerging Image of Autism Spectrum Disorders: Genetics and Pathology. Annu. Rev. Pathol. ten111-144 (2015).
Gauthier, J. et al. De novo mutations in the gene coding for the synaptic scaffold protein SHANK3 in patients identified for schizophrenia. Proc. Natl Acad. Sci. United States 1077863-7868 (2010).
Peça, J. et al. Shank3 mutant mice display behaviors similar to those of autistic and striatal dysfunction. Nature 472437-442 (2011).
Jennings, C.G. et al. Opportunities and challenges of modeling human brain disorders in transgenic primates. Nat. Neurosci. 191123-1130 (2016).
Bauman, M. D. & Schumann, C. M. Advances in Autism Models in Nonhuman Primates: Integrating Neuroscience and Behavior. Exp. Neurol. 299252-265 (2018).
Chang, S. W. et al. Neuroethology of the social behavior of primates. Proc. Natl Acad. Sci. United States 11010387-10394 (2013).
Platt, M.L., Seyfarth, R.M. and Cheney, D.L. Adaptations for social cognition in the brain of primates. Phil Trans. R. Soc. Lond. B 37120150096 (2016).
Izpisua Belmonte, J.C. et al. Brain, genes and primates. neuron 86617-631 (2015).
Sclafani, V. et al. Early predictors of altered social functioning in Rhesus macaque males (Macaca Mulata). PLoS ONE 11e0165401 (2016).
Liu, Z. et al. Behaviors similar to autism and germline transmission in transgenic monkeys overexpressing MeCP2. Nature 530, 98-102 (2016).
Chen, Y. et al. Modeling of Rett syndrome using MECP2 mutant cynomolgus monkeys published by TALEN. Cell 169945-955 (2017).
Sasaki, E. et al. Generation of non-human transgenic primates with germinal transmission. Nature 459, 523-527 (2009).
Cong, L. et al. Multiplex genome engineering using CRISPR / Cas systems. Science 339819-823 (2013).
Niu, Y. et al. Generation of gene-modified cynomolgus monkeys via Cas9 / RNA gene targeting in single-cell embryos. Cell 156836-843 (2014).
Zhao, H. et al. Altered neurogenesis and disturbed expression of synaptic proteins in the prefrontal cortex of SHANK3deficient nonhuman primate. Cell Res. 271293-1297 (2017).
Tu, Z. et al. CRISPR / Cas9 mediated disturbance SHANK3 in monkeys leads to symptoms similar to autism that can be treated with drugs. Hum. Mol. Broom. 28561-571 (2019).
Durand, C.M. et al. Mutations in the gene encoding SHANK3 synaptic scaffold protein are associated with autism spectrum disorders. Nat. Broom. 39, 25-27 (2007).
Zhou, Y. et al. Mouse with Shank3 mutations associated with ASD and schizophrenia have both common and distinct defects. neuron 89147-162 (2016).
Speed, H.E. et al. Insertion mutation associated with autism (InsG) of Shank3 Exon 21 impairs synaptic transmission and behavioral deficits. J. Neurosci. 359648 to 9665 (2015).
Bae, S., Park, J. and Kim, J. Case-OFFinder S.: a fast and versatile algorithm that searches for potentially off-target sites of RNA-guided endonucleases Cas9. bioinformatics 30, 1473-1475 (2014).
Jiang, Y. & Platt, M. L. Oxytocin and vasopressin flatten the hierarchy of dominance and improve behavioral synchrony partly via the anterior cingulate cortex. Sci. Representative. 88201 (2018).
Falck-Ytter, T., Bölte, S. and Gredebäck, G. Eye tracking in early research on autism. J. Neurodev. Disorder. 5, 28 (2013).
Mosher, C.P., Zimmerman, P.E. and Gothard, K.M Conspecific videos elicit interactive search patterns and facial expressions in monkeys. Neurosci Behavior. 125639-652 (2011).
Daluwatte, C. et al. Atypical pupillary reflex and variability of heart rate in children with autism spectrum disorders. J. Autism Dev. Disorder. 43, 1910-1925 (2013).
Maestripieri, D. & Wallen, K. T. Affiliate communication and submission to rhesus macaques. primates 38127-138 (1997).
Hinde, R. & Rowell, T. E. Communication by Postures and Facial Expressions in the Rhesus Monkey (Macaca Mulata). J. Zool. 138, 1-21 (1962).
Gothard, K.M., Battaglia, F.P., Erickson, C.A., Spitler, K.M. & Amaral, D.G. Neural Responses to Facial Expression and Face Identity in Monkey Amygdala. J. Neurophysiol. 971671-1683 (2007).
Parr, L. A. & Heintz, M. Recognition of facial expression in rhesus monkeys, Macaca Mulata. Anim. Behavior. 771507-1513 (2009).
Wass, S.V. et al. Shorter spontaneous fixation times in infants with autism emerge later. Sci. Representative. 58284 (2015).
Tabet, A.C. et al. A framework for identifying contributor genes in patients with Phelan-McDermid syndrome. NPJ Genom. Med. 2, 32 (2017).
Rudie, J. D. et al. Modification of the organization of functional and structural brain networks in autism. Neuroimage Clin. 2, 79-94 (2013).
Emerson, R. W. et al. Functional neuroimaging of 6-month-old infants at high risk predicts a diagnosis of autism at 24 months. Sci. Trad. Med. 9, eaag2882 (2017).
Lewis, J.D., Theilmann, R.J., Townsend, J. and Evans, A.C.The efficiency of the network in autism spectrum disorder and its relation to brain proliferation. Front. Hum. Neurosci. 7845 (2013).
Buckner, R.L., Andrews-Hanna, J.R. & Schacter, D.L.The default brain network: anatomy, function, and relevance to the disease. Ann. NY Acad. Sci. 1124, 1-38 (2008).
Whitfield-Gabrieli, S. & Nieto-Castanon, A. Conn: A functional connectivity toolkit for correlated and anticorrelated brain networks. Brain Connect. 2, 125-141 (2012).
Goldman, S.E. et al. Define the sleep phenotype in children with autism. Dev. Neuropsychol. 34560-573 (2009).
Adolphs, R. The social brain: neuronal basis of social knowledge. Annu. Rev. Psychol. 60693-716 (2009).
Arnsten, A. F. Constrained signaling pathways that alter the structure and function of the prefrontal cortex. Nat. Rev. Neurosci. ten410-422 (2009).
Guénolé, F. et al. Melatonin for sleep disorders in people with autism spectrum disorders: a systematic review and discussion. Sleep Med. Tower. 15379-387 (2011).
Just, M.A., Keller, T.A., Malave, V.L., Kana, R.K. and Varma, S. Autism as a disorder of neuronal systems: a theory of frontal-posterior subconnectivity. Neurosci. Biobehav. Tower. 36, 1292-1313 (2012).
Moeller, S., Nallasamy, N., Tsao, D.Y. and Freiwald, W. A. Functional connectivity of the macaque brain through states of stimulation and awakening. J. Neurosci. 295897-5909 (2009).
Vincent, J. L. et al. Intrinsic functional architecture in the anesthetized monkey brain. Nature 447, 83-86 (2007).
Ke, Q. et al. TALEN-based generation of a cynomolgus monkey disease model for human microcephaly. Cell Res. 261048-1061 (2016).
Sri Kantha, S. & Suzuki, J. Quantification of sleep in marmoset, tamarind and squirrel monkeys by non-invasive actigraphy. Comp. Biochem. Physiol. A 144203-210 (2006).
Freund, J. et al. Emergence of individuality in genetically identical mice. Science 340756-759 (2013).
Bei, D. M. & Lafferty J. D. Models of Dynamic Subjects. In Proc. 23rd Machine Learning International Conference (2006).
Kalman, R. E. A new approach to linear filtering and prediction problems. J. basic engineer. 8234-45 (1960).
Harlow, H. F. & Bromer, J. A. A test apparatus for monkeys. Psychol. Rec. 2434-436 (1938).
Harlow, H. F. The development of learning in the Rhesus monkey. A m. Sci. 47459-479 (1959).
Levin, E.D. & Bowman, R. E. Effect of prenatal or postnatal lead exposure on Hamilton's research in monkeys. Neurobehav. Toxicol. Teratol. 3391-394 (1983).
Frey, S. et al. A stereotaxic stereotaxic atlas and space for the monkey macaque based on MRI (monkey space of the INM). Neuroimage 551435-1442 (2011).
Ashburner, J. SPM: a story. Neuroimage 62, 791-800 (2012).
Behzadi, Y., Restom, K., J. Liau, and T. T. T. A component-based noise correction method (CompCor) for BOLD and fMRI infusion. Neuroimage 3790-101 (2007).
Deshpande, G., LaConte, S., Peltier, S. and Hu X. Integrated local correlation: a new measure of local consistency in fMRI data. Hum. Brain Mapp. 30, 13-23 (2009).
[ad_2]
Source link