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1. Evidence for genetic linkage of autism to chromosomes 7 and 4

Author

Schellenberg, GD, Dawson, G, Sung, YJ, Estes, A, Munson, J, Rosenthal, E, Rothstein, J, Flodman, P, Smith, M, Coon, H, Leong, L, Yu, CE, Stodgell, C, Rodier, PM, Spence, MA, Minshew, N, McMahon, WM, and Wijsman, EM

Subjects
article, autism, chromosome 4, chromosome 7, family, gene location, genetic analysis, genetic linkage, human, priority journal, quantitative trait, Williams Beuren syndrome, Psychiatry, Medical and Health Sciences, Biological Sciences, Psychology and Cognitive Sciences
Published
2006

2. Autism and the serotonin transporter: the long and short of it

Author

Devlin, B, Cook, EH, Coon, H, Dawson, G, Grigorenko, EL, McMahon, W, Minshew, N, Pauls, D, Smith, M, Spence, MA, Rodier, PM, Stodgell, C, and Schellenberg, GD

Subjects
Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Genetics, Pediatric, Neurosciences, Intellectual and Developmental Disabilities (IDD), Autism, Mental Health, Brain Disorders, Aetiology, 2.1 Biological and endogenous factors, Mental health, Adult, Autistic Disorder, Child, Gene Frequency, Genetic Predisposition to Disease, Humans, Linkage Disequilibrium, Minisatellite Repeats, Pedigree, Phenotype, Polymorphism, Genetic, Serotonin Plasma Membrane Transport Proteins, autism, serotonin transporter, heterogeneity, genetic association, autistic disorder, CPEA Genetics Network, Autistic disorder, Genetic association, Heterogeneity, Serotonin transporter, protein, unclassified drug, allele, article, family, gene locus, genetic variability, haplotype, human, major clinical study, priority journal, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Clinical sciences, Biological psychology, Clinical and health psychology
Abstract

Autism is a neurodevelopmental disorder manifesting early in childhood. Some symptoms of autism are alleviated by treatment with selective serotonin reuptake inhibitors, which are known to interact with the serotonin transporter. Moreover, variation in the gene that encodes the transporter (SLC6A4), especially the HTTLPR locus, is known to modulate its expression. It is natural, therefore, to evaluate whether this variation plays a role in liability to autism. We investigated the impact of alleles at HTTLPR and three other loci in SLC6A4 by using a large, independent family-based sample (390 families, 1528 individuals) from the NIH Collaborative Programs of Excellence in Autism (CPEA) network. Allele transmissions to individuals diagnosed with autism were biased only for HTTLPR, both for the narrow diagnosis of autism (P=0.035) and for the broader diagnosis of autism spectrum (P=0.007). The short allele of HTTLPR was significantly overtransmitted. Investigation of haplotype transmissions suggested that, in our data, biased transmission was only due to HTTLPR. With respect to this locus, there are now seven of 12 studies reporting significant transmission bias of HTTLPR alleles, a noteworthy result in itself. However, the studies with significant findings are almost equally divided between overtransmission of short and overtransmission of long alleles. We place our results within this extremely heterogeneous field of studies. Determining the factors influencing the relationship between autism phenotypes and HTTLPR variation, as well as other loci in SLC6A4, could be an important advance in our understanding of this complex disorder.

Published
2005

3. Brief Report: Comparability of DSM-IV and DSM-5 ASD Research Samples

Author

Mazefsky, C. A., McPartland, J. C., Gastgeb, H. Z., and Minshew, N. J.

Abstract

Diagnostic and Statistical Manual (DSM-5) criteria for ASD have been criticized for being too restrictive, especially for more cognitively-able individuals. It is unclear, however, if high-functioning individuals deemed eligible for research via standardized diagnostic assessments would meet DSM-5 criteria. This study investigated the impact of DSM-5 on the diagnostic status of 498 high-functioning participants with ASD research diagnoses. The percent of participants satisfying all DSM-5-requirements varied significantly with reliance on data from the "Autism Diagnostic Observation Schedule" (ADOS; 33 %) versus "Autism Diagnostic Interview-Revised" (ADI-R; 83 %), highlighting the impact of diagnostic methodology on ability to document DSM-5 symptoms. Utilizing combined ADOS/ADI-R data, 93 % of participants met DSM-5 criteria, which suggests likely continuity between DSM-IV and DSM-5 research samples characterized with these instruments in combination.

Published
2013
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4. Rare coding variation provides insight into the genetic architecture and phenotypic context of autism

Author

J. M., Fu, Satterstrom, F. K., Peng, M., Brand, H., Collins, R. L., Dong, S., Wamsley, B., Klei, L., Wang, L., Hao, S. P., Stevens, C. R., Cusick, C., Babadi, M., Banks, E., Collins, B., Dodge, S., Gabriel, S. B., Gauthier, L., Lee, S. K., Liang, L., Ljungdahl, A., Mahjani, B., Sloofman, L., Smirnov, A. N., Barbosa, M., Betancur, C., Brusco, A., Chung, B. H. Y., Cook, E. H., Cuccaro, M. L., Domenici, E., Ferrero, G. B., Gargus, J. J., Herman, G. E., Hertz-Picciotto, I., Maciel, P., Manoach, D. S., Passos-Bueno, M. R., Persico, A., Renieri, A., Sutcliffe, J. S., Tassone, F., Trabetti, E., Campos, G., Cardaropoli, S., Carli, D., Chan, M. C. Y., Fallerini, C., Giorgio, E., Girardi, A. C., Hansen-Kiss, E., Lee, S. L., Lintas, C., Ludena, Y., Nguyen, R., Pavinato, L., Pericak-Vance, M., Pessah, I. N., Schmidt, R. J., Smith, M., Costa, C. I. S., Trajkova, S., Wang, J. Y. T., M. H. C., Yu, Aleksic, B., Artomov, M., Benetti, E., Biscaldi-Schafer, M., Borglum, A. D., Carracedo, A., Chiocchetti, A. G., Coon, H., Doan, R. N., Fernandez-Prieto, M., Freitag, C. M., Gerges, S., Guter, S., Hougaard, D. M., Hultman, C. M., Jacob, S., Kaartinen, M., Kolevzon, A., Kushima, I., Lehtimaki, T., Rizzo, C. L., Maltman, N., Manara, M., Meiri, G., Menashe, I., Miller, J., Minshew, N., Mosconi, M., Ozaki, N., Palotie, A., Parellada, M., Puura, K., Reichenberg, A., Sandin, S., Scherer, S. W., Schlitt, S., Schmitt, L., Schneider-Momm, K., Siper, P. M., Suren, P., Sweeney, J. A., Teufel, K., del Pilar Trelles, M., Weiss, L. A., Yuen, R., Cutler, D. J., De Rubeis, S., Buxbaum, J. D., Daly, M. J., Devlin, B., Roeder, K., Sanders, S. J., Talkowski, M. E., Massachusetts General Hospital [Boston], Broad Institute of MIT and Harvard (BROAD INSTITUTE), Harvard Medical School [Boston] (HMS)-Massachusetts Institute of Technology (MIT)-Massachusetts General Hospital [Boston], Carnegie Mellon University [Pittsburgh] (CMU), Harvard Medical School [Boston] (HMS), University of California [San Francisco] (UC San Francisco), University of California (UC), University of California [Los Angeles] (UCLA), University of Pittsburgh School of Medicine, Pennsylvania Commonwealth System of Higher Education (PCSHE), Icahn School of Medicine at Mount Sinai [New York] (MSSM), Neuroscience Paris Seine (NPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de Biologie Paris Seine (IBPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Università degli studi di Torino = University of Turin (UNITO), Azienda Ospedalerio - Universitaria Città della Salute e della Scienza di Torino = University Hospital Città della Salute e della Scienza di Torino, The University of Hong Kong (HKU), University of Illinois [Chicago] (UIC), University of Illinois System, University of Miami Leonard M. Miller School of Medicine (UMMSM), University of Trento [Trento], University of California [Irvine] (UC Irvine), Nationwide Children's Hospital, University of California [Davis] (UC Davis), Universidade do Minho = University of Minho [Braga], Massachusetts General Hospital [Boston, MA, USA], Escola Politecnica da Universidade de Sao Paulo [Sao Paulo], Università degli Studi di Messina = University of Messina (UniMe), Università degli Studi di Siena = University of Siena (UNISI), Azienda Ospedaliera Universitaria Senese, Vanderbilt University [Nashville], Vanderbilt University School of Medicine [Nashville], Università degli studi di Verona = University of Verona (UNIVR), University of Texas Health Science Center, The University of Texas Health Science Center at Houston (UTHealth), Università Campus Bio-Medico di Roma / University Campus Bio-Medico of Rome ( UCBM), Emory University School of Medicine, Emory University [Atlanta, GA], Helsingin yliopisto = Helsingfors universitet = University of Helsinki, Autism Sequencing Consortium (ASC), Broad Institute Center for Common Disease Genomics (Broad-CCDG), iPSYCH-BROAD Consortium : Branko Aleksic, Mykyta Artomov, Elisa Benetti, Monica Biscaldi-Schafer, Anders D Børglum, Angel Carracedo, Andreas G Chiocchetti, Hilary Coon, Ryan N Doan, Montserrat Fernández-Prieto, Christine M Freitag, Sherif Gerges, Stephen Guter, David M Hougaard, Christina M Hultman, Suma Jacob, Miia Kaartinen, Alexander Kolevzon, Itaru Kushima, Terho Lehtimäki, Caterina Lo Rizzo, Nell Maltman, Marianna Manara, Gal Meiri, Idan Menashe, Judith Miller, Nancy Minshew, Matthew Mosconi, Norio Ozaki, Aarno Palotie, Mara Parellada, Kaija Puura, Abraham Reichenberg, Sven Sandin, Stephen W Scherer, Sabine Schlitt, Lauren Schmitt, Katja Schneider-Momm, Paige M Siper, Pål Suren, John A Sweeney, Karoline Teufel, Maria Del Pilar Trelles, Lauren A Weiss, Ryan Yuen., and Betancur, Catalina

Subjects
Broad Institute Center for Common Disease Genomics, Autism Sequencing Consortium, DNA Copy Number Variations, Autism Spectrum Disorder, [SDV.NEU.NB]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Neurobiology, Autism, Intellectual and Developmental Disabilities (IDD), iPSYCH-BROAD Consortium, autism spectrum disorders, disease gene, copy number variants, neuropsychiatric disorders, [SDV.GEN.GH] Life Sciences [q-bio]/Genetics/Human genetics, GENOMAS, Medical and Health Sciences, Article, Clinical Research, Genetics, Humans, 2.1 Biological and endogenous factors, Genetic Predisposition to Disease, Autistic Disorder, Aetiology, Genetic association study, Pediatric, Human Genome, Neurodevelopmental disorders, [SDV.NEU.NB] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Neurobiology, Biological Sciences, Autism spectrum disorders, Brain Disorders, Mental Health, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, Mutation, Gene expression, Biotechnology, Developmental Biology
Abstract

International audience; Some individuals with autism spectrum disorder (ASD) carry functional mutations rarely observed in the general population. We explored the genes disrupted by these variants from joint analysis of protein-truncating variants (PTVs), missense variants and copy number variants (CNVs) in a cohort of 63,237 individuals. We discovered 72 genes associated with ASD at false discovery rate (FDR) ≤ 0.001 (185 at FDR ≤ 0.05). De novo PTVs, damaging missense variants and CNVs represented 57.5%, 21.1% and 8.44% of association evidence, while CNVs conferred greatest relative risk. Meta-analysis with cohorts ascertained for developmental delay (DD) (n = 91,605) yielded 373 genes associated with ASD/DD at FDR ≤ 0.001 (664 at FDR ≤ 0.05), some of which differed in relative frequency of mutation between ASD and DD cohorts. The DD-associated genes were enriched in transcriptomes of progenitor and immature neuronal cells, whereas genes showing stronger evidence in ASD were more enriched in maturing neurons and overlapped with schizophrenia-associated genes, emphasizing that these neuropsychiatric disorders may share common pathways to risk.

Published
2022

7. The autism brain imaging data exchange: towards a large-scale evaluation of the intrinsic brain architecture in autism

Author

Di Martino, A, Yan, C-G, Li, Q, Denio, E, Castellanos, F X, Alaerts, K, Anderson, J S, Assaf, M, Bookheimer, S Y, Dapretto, M, Deen, B, Delmonte, S, Dinstein, I, Ertl-Wagner, B, Fair, D A, Gallagher, L, Kennedy, D P, Keown, C L, Keysers, C, Lainhart, J E, Lord, C, Luna, B, Menon, V, Minshew, N J, Monk, C S, Mueller, S, Müller, R-A, Nebel, M B, Nigg, J T, O'Hearn, K, Pelphrey, K A, Peltier, S J, Rudie, J D, Sunaert, S, Thioux, M, Tyszka, J M, Uddin, L Q, Verhoeven, J S, Wenderoth, N, Wiggins, J L, Mostofsky, S H, and Milham, M P

Published
2014
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15. Rates, distribution and implications of postzygotic mosaic mutations in autism spectrum disorder

Author

Lim, Elaine T., Uddin, Mohammed, De Rubeis, Silvia, Chan, Yingleong, Kamumbu, Anne S., Zhang, Xiaochang, D'Gama, Alissa M., Kim, Sonia N., Hill, Robert Sean, Goldberg, Arthur P., Poultney, Christopher, Minshew, Nancy J., Kushima, Itaru, Aleksic, Branko, Ozaki, Norio, Parellada, Mara, Arango, Celso, Penzol, Maria J., Carracedo, Angel, Kolevzon, Alexander, Hultman, Christina M., Weiss, Lauren A., Fromer, Menachem, Chiocchetti, Andreas G., Freitag, Christine M., Church, George M., Scherer, Stephen W., Buxbaum, Joseph D., Walsh, Christopher A, Aleksic, B, Anney, R, Barbosa, M, Barrett, J, Betancur, C, Bishop, S, Brusco, A, Buxbaum, Jd, Carracedo, A, Chiocchetti, Ag, Chung, Bhy, Cook, E, Coon, H, Cutler, Dj, Daly, M, De Rubeis, S, Doan, R, Fernández-Prieto, M, Ferrero, Gb, Freitag, Cm, Fromer, M, Gargus, J, Geschwind, D, Gill, M, Gómez-Guerrero, L, Hansen-Kiss, E, He, X, Herman, G, Hertz-Picciotto, I, Hultman, C, Iliadou, B, Ionita-Laza, I, Jugessur, A, Knudsen, Gp, Kolevzon, A, Kosmicki, J, Kushima, I, Lee, Sl, Lehner, T, Lennertz, S, Lim, E, Maciel, P, Magnus, P, Manoach, D, Minshew, N, Morrow, E, Mulle, J, Neale, B, Ozaki, N, Palotie, A, Parellada, M, Passos-Bueno, Mr, Pericak-Vance, M, Persico, A, Pessah, I, Reichenberg, A, Reichert, J, Renieri, A, Robinson, E, Samocha, K, Sanders, S, Sandin, S, Santangelo, Sl, Satterstrom, K, Schafer, C, Schellenberg, G, Scherer, S, Senthil, G, Silva, M, Singh, T, Siper, Pm, Soares, G, Stevens, C, Stoltenberg, C, Surén, P, Sutcliffe, Js, Szatmari, P, Tassone, F, Thurm, A, Walsh, C, Weiss, L, Werling, D, Willsey, J, Xu, X, Yu, Tw, Yuen, R, Zwick, Me., Howard Hughes Medical Institute [Boston] (HHMI), Howard Hughes Medical Institute (HHMI)-Harvard Medical School [Boston] (HMS), Boston Children's Hospital, Harvard Medical School [Boston] (HMS), Broad Institute of MIT and Harvard (BROAD INSTITUTE), Harvard Medical School [Boston] (HMS)-Massachusetts Institute of Technology (MIT)-Massachusetts General Hospital [Boston], Harvard University [Cambridge], Mohammed Bin Rashid University of Medicine and Health Sciences (MBRU), Icahn School of Medicine at Mount Sinai [New York] (MSSM), University of Pittsburgh (PITT), Pennsylvania Commonwealth System of Higher Education (PCSHE), Nagoya University, Hospital General Universitario 'Gregorio Marañón' [Madrid], Universidad Complutense de Madrid = Complutense University of Madrid [Madrid] (UCM), Centro de Investigación Biomédica en Red Salud Mental [Madrid] (CIBER-SAM), Universidade de Santiago de Compostela [Spain] (USC ), CIBER de Enfermedades Raras (CIBERER), Fundación Pública Galega Medicina Xenómica - SERGAS [Santiago de Compostela, Spain] (Grupo de Medicina Xenómica), CIBER de Enfermedades Raras (CIBERER)-Universidade de Santiago de Compostela [Spain] (USC ), King Abdulaziz University, Karolinska Institutet [Stockholm], University of California [San Francisco] (UCSF), University of California, Goethe-University Frankfurt am Main, Génétique de l'autisme = Genetics of Autism (NPS-01), Neurosciences Paris Seine (NPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), The Hospital for sick children [Toronto] (SickKids), University of Toronto, McLaughlin Centre for Population Health Risk Assessment, University of Ottawa [Ottawa], Autism Sequencing Consortium: Branko Aleksic, Richard Anney, Mafalda Barbosa, Jeffrey Barrett, Catalina Betancur, Somer Bishop, Alfredo Brusco, Joseph D Buxbaum, Angel Carracedo, Andreas G Chiocchetti, Brian H Y Chung, Edwin Cook, Hilary Coon, David J Cutler, Mark Daly, Silvia De Rubeis, Ryan Doan, Montserrat Fernández-Prieto, Giovanni Battista Ferrero, Christine M Freitag, Menachem Fromer, Jay Gargus, Dan Geschwind, Michael Gill, Lorena Gómez-Guerrero, Emily Hansen-Kiss, Xin He, Gail Herman, Irva Hertz-Picciotto, Christina Hultman, Bozenna Iliadou, Iuliana Ionita-Laza, Anil Jugessur, Gun Peggy Knudsen, Alexander Kolevzon, Jack Kosmicki, Itaru Kushima, S L Lee, Thomas Lehner, Savannah Lennertz, Elaine Lim, Patricia Maciel, Per Magnus, Dara Manoach, Nancy Minshew, Eric Morrow, Jennifer Mulle, Benjamin Neale, Norio Ozaki, Aarno Palotie, Mara Parellada, Maria Rita Passos-Bueno, Margaret Pericak-Vance, Antonio Persico, Isaac Pessah, Avi Reichenberg, Jennifer Reichert, Alessandra Renieri, Elise Robinson, Kaitlin Samocha, Stephan Sanders, Sven Sandin, Susan L Santangelo, Kyle Satterstrom, Chad Schafer, Gerry Schellenberg, Stephen Scherer, Geetha Senthil, Marisol Silva, Tarjinder Singh, Paige M Siper, Gabriela Soares, Christine Stevens, Camilla Stoltenberg, Pål Surén, James S Sutcliffe, Peter Szatmari, Flora Tassone, Audrey Thurm, Christopher Walsh, Lauren Weiss, Donna Werling, Jeremy Willsey, Xinyi Xu, Timothy W Yu, Ryan Yuen, Michael E Zwick., University of California [San Francisco] (UC San Francisco), University of California (UC), Neuroscience Paris Seine (NPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de Biologie Paris Seine (IBPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), and Betancur, Catalina

Subjects
0301 basic medicine, Proband, Nonsynonymous substitution, Autism Spectrum Disorder, Databases, Genetic, Genetic Predisposition to Disease, Genetic Variation, Humans, Mosaicism, Mutation, Missense, Zygote, Neuroscience (all), Mutation, Missense, Epigenetics of autism, Biology, [SDV.GEN.GH] Life Sciences [q-bio]/Genetics/Human genetics, medicine.disease_cause, Article, 03 medical and health sciences, Genetic variation, mental disorders, Databases, Genetic, medicine, Missense mutation, Heritability of autism, MESH: Genetic Variation, MESH: Databases, Genetic, Genetics, MESH: Autism Spectrum Disorder, MESH: Mutation, Missense, [SDV.GEN]Life Sciences [q-bio]/Genetics, MESH: Humans, General Neuroscience, MESH: Genetic Predisposition to Disease, medicine.disease, 030104 developmental biology, [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics, Autism spectrum disorder, MESH: Zygote, MESH: Mosaicism
Abstract

International audience; We systematically analyzed postzygotic mutations (PZMs) in whole-exome sequences from the largest collection of trios (5,947) with autism spectrum disorder (ASD) available, including 282 unpublished trios, and performed resequencing using multiple independent technologies. We identified 7.5% of de novo mutations as PZMs, 83.3% of which were not described in previous studies. Damaging, nonsynonymous PZMs within critical exons of prenatally expressed genes were more common in ASD probands than controls (P < 1 × 10-6), and genes carrying these PZMs were enriched for expression in the amygdala (P = 5.4 × 10-3). Two genes (KLF16 and MSANTD2) were significantly enriched for PZMs genome-wide, and other PZMs involved genes (SCN2A, HNRNPU and SMARCA4) whose mutation is known to cause ASD or other neurodevelopmental disorders. PZMs constitute a significant proportion of de novo mutations and contribute importantly to ASD risk.

Published
2017

17. The impact of the metabotropic glutamate receptor and other gene family interaction networks on autism

Author

Hadley, D., Wu, Z.L., Kao, C., Kini, A., Mohamed-Hadley, A., Thomas, K., Vazquez, L., Qiu, H., Mentch, F., Pellegrino, R., Kim, C., Connolly, J., Glessner, J., Hakonarson, H., Pinto, D., Merikangas, A., Klei, L., Vorstman, J.A., Thompson, A., Regan, R., Pagnamenta, A.T., Oliveira, B., Magalhaes, T.R., Gilbert, J., Duketis, E., De Jonge, M.V., Cuccaro, M., Correia, C.T., Conroy, J., Conceição, I.C., Chiocchetti, A.G., Casey, J.P., Bolshakova, N., Bacchelli, E., Anney, R., Zwaigenbaum, L., Wittemeyer, K., Wallace, S., Engeland, Hv, Soorya, L., Rogé, B., Roberts, W., Poustka, F., Mouga, S., Minshew, N., McGrew, S.G., Lord, C., Leboyer, M., Le Couteur, A.S., Kolevzon, A., Jacob, S., Guter, S., Green, J., Green, A., Gillberg, C., Fernandez, B.A., Duque, F., Delorme, R., Dawson, G., Café, C., Brennan, S., Bourgeron, T., Bolton, P.F., Bölte, S., Bernier, R., Baird, G., Bailey, A.J., Anagnostou, E., Almeida, J., Wijsman, E.M., Vieland, V.J., Vicente, A.M., Schellenberg, G.D., Pericak-Vance, M., Paterson, A.D., Parr, J.R., Oliveira, G., Correia, C., Nurnberger, J.I., Monaco, A.P., Maestrini, E., Klauck, S.M., Haines, J.L., Geschwind, D.H., Freitag, C.M., Folstein, S.E., Ennis, S., Coon, H., Battaglia, A., Szatmari, P., Sutcliffe, J.S., Hallmayer, J., Gill, M., Cook, E.H., Buxbaum, J.D., Devlin, B., Gallagher, L., Betancur, C., and Scherer, S.W.

Subjects
Autism, Perturbações do Desenvolvimento Infantil e Saúde Mental
Abstract

Although multiple reports show that defective genetic networks underlie the aetiology of autism, few have translated into pharmacotherapeutic opportunities. Since drugs compete with endogenous small molecules for protein binding, many successful drugs target large gene families with multiple drug binding sites. Here we search for defective gene family interaction networks (GFINs) in 6,742 patients with the ASDs relative to 12,544 neurologically normal controls, to find potentially druggable genetic targets. We find significant enrichment of structural defects (P≤2.40E-09, 1.8-fold enrichment) in the metabotropic glutamate receptor (GRM) GFIN, previously observed to impact attention deficit hyperactivity disorder (ADHD) and schizophrenia. Also, the MXD-MYC-MAX network of genes, previously implicated in cancer, is significantly enriched (P≤3.83E-23, 2.5-fold enrichment), as is the calmodulin 1 (CALM1) gene interaction network (P≤4.16E-04, 14.4-fold enrichment), which regulates voltage-independent calcium-activated action potentials at the neuronal synapse. We find that multiple defective gene family interactions underlie autism, presenting new translational opportunities to explore for therapeutic interventions.

Published
2014

18. Convergence of genes and cellular pathways dysregulated in autism spectrum disorders

Author

Pinto, D., Delaby, E., Merico, D., Barbosa, M., Merikangas, A., Klei, L, Thiruvahindrapuram, B., Xu, X., Ziman, R., Wang, Z., Vorstman, J.A., Thompson, A., Regan, R., Pilorge, M., Pellecchia, G., Pagnamenta, A.T., Oliveira, B., Marshall, C.R., Magalhães, T.R., Lowe, J.K., Howe, J.L., Griswold, A.J., Gilbert, J., Duketis, E., Dombroski, B.A., De Jonge, M.V., Cuccaro, M., Crawford, E.L., Correia, C.T., Conroy, J., Conceição, I.C, Chiocchetti, A.G., Casey, J.P., Cai, G., Cabrol, C., Bolshakova, N., Bacchelli, E., Anney, R., Gallinger, S., Cotterchio, M., Casey, G., Zwaigenbaum, L., Wittemeyer, K., Wing, K., Wallace, S., van Engeland, H., Tryfon, A., Thomson, S., Soorya, L., Rogé, B., Roberts, W., Poustka, F., Mouga, S., Minshew, N., McInnes, L.A., McGrew, S.G., Lord, C., Leboyer, M., Le Couteur, A.S., Kolevzon, A., Jiménez González, P., Jacob, S., Holt, R., Guter, S., Green, J., Green, A., Gillberg, C., Fernandez, B.A., Duque, F., Delorme, R., Dawson, G., Chaste, P., Café, C., Brennan, S., Bourgeron, T., Bolton, P.F., Bölte, S., Bernier, R., Baird, G., Bailey, A.J., Anagnostou, E., Almeida, J., Wijsman, E.M., Vieland, V.J., Vicente, A.M., Schellenberg, G.D., Pericak-Vance, M., Paterson, A.D., Parr, J.R., Oliveira, G., Nurnberger, J.I., Monaco, A.P., Maestrini, E., Klauck, S.M., Hakonarson, H., Haines, J.L., Geschwind, D.H., Freitag, C.M., Folstein, S.E., Ennis, S., Coon, H., Battaglia, A., Szatmari, P., Sutcliffe, J.S., Hallmayer, J., Gill, M., Cook, E.H., Buxbaum, J.D., Devlin, B., Gallagher, L., and Betancur, C.

Subjects
Autism Spectrum Disorders, Rare copy-number variation, Autism, mental disorders, Perturbações do Desenvolvimento Infantil e Saúde Mental
Abstract

Rare copy-number variation (CNV) is an important source of risk for autism spectrum disorders (ASDs). We analyzed 2,446 ASD-affected families and confirmed an excess of genic deletions and duplications in affected versus control groups (1.41-fold, p = 1.0 × 10(-5)) and an increase in affected subjects carrying exonic pathogenic CNVs overlapping known loci associated with dominant or X-linked ASD and intellectual disability (odds ratio = 12.62, p = 2.7 × 10(-15), ∼3% of ASD subjects). Pathogenic CNVs, often showing variable expressivity, included rare de novo and inherited events at 36 loci, implicating ASD-associated genes (CHD2, HDAC4, and GDI1) previously linked to other neurodevelopmental disorders, as well as other genes such as SETD5, MIR137, and HDAC9. Consistent with hypothesized gender-specific modulators, females with ASD were more likely to have highly penetrant CNVs (p = 0.017) and were also overrepresented among subjects with fragile X syndrome protein targets (p = 0.02). Genes affected by de novo CNVs and/or loss-of-function single-nucleotide variants converged on networks related to neuronal signaling and development, synapse function, and chromatin regulation.

Published
2014

19. Gene-ontology enrichment analysis in two independent family-based samples highlights biologically plausible processes for autism spectrum disorders

Author

Anney, R.J., Kenny, E.M., O'Dushlaine, C., Parkhomenka, E., Buxbaum, J.D., Sutcliffe, J., Gill, M., Gallagher, L., Bailey, A.J., Fernandez, B.A., Szatmari, P., Nurnberger Jr, J.I., McDougle, C.J., Posey, D.J., Lord, C., Corsello, C., Hus, V., Kolevzon, A., Soorya, L., Parkhomenko, E., Scherer, S.W., Leventhal, B.L., Dawson, G., Vieland, V.J., Hakonarson, H., Glessner, J.T., Kim, C., Wang, K., Schellenberg, G.D., Devlin, B., Klei, L., Patterson, A., Minshew, N., Sutcliffe, J.S., Haines, J.L., Lund, S.C., Thomson, S., Yaspan, B.L., Coon, H., Miller, J., McMahon, W.M., Munson, J., Marshall, C.R., Estes, A., Wijsman, EM., The Autism Genome Project, Pinto, D., Vincent, J.B., Fombonne, E., Betancur, C., Delorme, R., Leboyer, M., Bourgeron, T., Mantoulan, C., Roge, B., Tauber, M., Freitag, C.M., Poustka, F., Duketis, E., Klauck, S.M., Poustka, A., Papanikolaou, K., Tsiantis, J., Anney, R., Bolshakova, N., Brennan, S., Hughes, G., McGrath, J., Merikangas, A., Ennis, S., Green, A., Casey, J.P., Conroy, J.M., Regan, R., Shah, N., Maestrini, E., Bacchelli, E., Minopoli, F., Stoppioni, V., Battaglia, A., Igliozzi, R., Parrini, B., Tancredi, R., Oliveira, G., Almeida, J., Duque, F., Vicente, A.M., Correia, C., Magalhaes, T.R., Gillberg, C., Nygren, G., Jonge, M.D., Van Engeland, H., Vorstman, J.A., Wittemeyer, K., Baird, G., Bolton, P.F, Rutter, M.L., Green, J., Lamb, J.A., Pickles, A., Parr, J.R., Couteur, A.L., Berney, T., McConachie, H., Wallace, S., Coutanche, M., Foley, S., White, K., Monaco, A.P., Holt, R., Farrar, P., Pagnamenta, A.T., Mirza, G.K., Ragoussis, J., Sousa, I., Sykes, N., Wing, K., Hallmayer, J., Cantor, R.M., Nelson, S.F., Geschwind, D.H., Abrahams, B.S., Volkmar, F., Pericak-Vance, M.A., Cuccaro, M.L., Gilbert, J., Cook, E.H., Guter, S.J., and Jacob, S.

Subjects
Pathway analysis, Autism, Perturbações do Desenvolvimento Infantil e Saúde Mental, Gene ontology, Genome-wide association analysis, Family-based association test
Abstract

Recent genome-wide association studies (GWAS) have implicated a range of genes from discrete biological pathways in the aetiology of autism. However, despite the strong influence of genetic factors, association studies have yet to identify statistically robust, replicated major effect genes or SNPs. We apply the principle of the SNP ratio test methodology described by O'Dushlaine et al to over 2100 families from the Autism Genome Project (AGP). Using a two-stage design we examine association enrichment in 5955 unique gene-ontology classifications across four groupings based on two phenotypic and two ancestral classifications. Based on estimates from simulation we identify excess of association enrichment across all analyses. We observe enrichment in association for sets of genes involved in diverse biological processes, including pyruvate metabolism, transcription factor activation, cell-signalling and cell-cycle regulation. Both genes and processes that show enrichment have previously been examined in autistic disorders and offer biologically plausibility to these findings.

Published
2011

20. Gene-ontology enrichment analysis in two independent family-based samples highlights biologically plausible processes for autism spectrum disorders

Author

Anney, R.J.L. Kenny, E.M. O'Dushlaine, C. Yaspan, B.L. Parkhomenka, E. Buxbaum, J.D. Sutcliffe, J. Gill, M. Gallagher, L. Bailey, A.J. Fernandez, B.A. Szatmari, P. Scherer, S.W. Patterson, A. Marshall, C.R. Pinto, D. Vincent, J.B. Fombonne, E. Betancur, C. Delorme, R. Leboyer, M. Bourgeron, T. Mantoulan, C. Roge, B. Tauber, M. Freitag, C.M. Poustka, F. Duketis, E. Klauck, S.M. Poustka, A. Papanikolaou, K. Tsiantis, J. Bolshakova, N. Brennan, S. Hughes, G. McGrath, J. Merikangas, A. Ennis, S. Green, A. Casey, J.P. Conroy, J.M. Regan, R. Shah, N. Maestrini, E. Bacchelli, E. Minopoli, F. Stoppioni, V. Battaglia, A. Igliozzi, R. Parrini, B. Tancredi, R. Oliveira, G. Almeida, J. Duque, F. Vicente, A. Correia, C. Magalhaes, T.R. Gillberg, C. Nygren, G. De Jonge, M. Van Engeland, H. Vorstman, J.A.S. Wittemeyer, K. Baird, G. Bolton, P.F. Rutter, M.L. Green, J. Lamb, J.A. Pickles, A. Parr, J.R. Le Couteur, A. Berney, T. McConachie, H. Wallace, S. Coutanche, M. Foley, S. White, K. Monaco, A.P. Holt, R. Farrar, P. Pagnamenta, A.T. Mirza, G.K. Ragoussis, J. Sousa, I. Sykes, N. Wing, K. Hallmayer, J. Cantor, R.M. Nelson, S.F. Geschwind, D.H. Abrahams, B.S. Volkmar, F. Pericak-Vance, M.A. Cuccaro, M.L. Gilbert, J. Cook, E.H. Guter, S.J. Jacob, S. Nurnberger, J.I., Jr. McDougle, C.J. Posey, D.J. Lord, C. Corsello, C. Hus, V. Kolevzon, A. Soorya, L. Parkhomenko, E. Leventhal, B.L. Dawson, G. Vieland, V.J. Hakonarson, H. Glessner, J.T. Kim, C. Wang, K. Schellenberg, G.D. Devlin, B. Klei, L. Minshew, N. Sutcliffe, J.S. Haines, J.L. Lund, S.C. Thomson, S. Coon, H. Miller, J. McMahon, W.M. Munson, J. Estes, A. Wijsman, E.M. Autism Genome Project

Abstract

Recent genome-wide association studies (GWAS) have implicated a range of genes from discrete biological pathways in the aetiology of autism. However, despite the strong influence of genetic factors, association studies have yet to identify statistically robust, replicated major effect genes or SNPs. We apply the principle of the SNP ratio test methodology described by O'Dushlaine et al to over 2100 families from the Autism Genome Project (AGP). Using a two-stage design we examine association enrichment in 5955 unique gene-ontology classifications across four groupings based on two phenotypic and two ancestral classifications. Based on estimates from simulation we identify excess of association enrichment across all analyses. We observe enrichment in association for sets of genes involved in diverse biological processes, including pyruvate metabolism, transcription factor activation, cell-signalling and cell-cycle regulation. Both genes and processes that show enrichment have previously been examined in autistic disorders and offer biologically plausibility to these findings. © 2011 Macmillan Publishers Limited All rights reserved.

Published
2011

21. Mapping autism risk loci using genetic linkage and chromosomal rearrangements

Author

Szatmari, P, Paterson, AD, Zwaigenbaum, L, Roberts, W, Brian, J, Liu, XQ, Vincent, JB, Skaug, JL, Thompson, AP, Senman, L, Feuk, L, Qian, C, Bryson, SE, Jones, MB, Marshall, CR, Scherer, SW, Vieland, VJ, Bartlett, C, Mangin, LV, Goedken, R, Segre, A, Pericak-Vance, MA, Cuccaro, ML, Gilbert, JR, Wright, HH, Abramson, RK, Betancur, C, Bourgeron, T, Gillberg, C, Leboyer, M, Buxbaum, JD, Davis, KL, Hollander, E, Silverman, JM, Hallmayer, J, Lotspeich, L, Sutcliffe, JS, Haines, JL, Folstein, SE, Piven, J, Wassink, TH, Sheffield, V, Geschwind, DH, Bucan, M, Brown, WT, Cantor, RM, Constantino, JN, Gilliam, TC, Herbert, M, LaJonchere, C, Ledbetter, DH, Lese-Martin, C, Miller, J, Nelson, S, Samango-Sprouse, CA, Spence, S, State, M, Tanzi, RE, Coon, H, Dawson, G, Devlin, B, Estes, A, Flodman, P, Klei, L, McMahon, WM, Minshew, N, Munson, J, Korvatska, E, Rodier, PM, Schellenberg, GD, Smith, M, Spence, MA, Stodgell, C, Tepper, PG, Wijsman, EM, Yu, CE, Rogé, B, Mantoulan, C, Wittemeyer, K, Poustka, A, Felder, B, Klauck, SM, Schuster, C, Poustka, F, Bölte, S, Feineis-Matthews, S, Herbrecht, E, Schmötzer, G, Tsiantis, J, Papanikolaou, K, Maestrini, E, and Bacchelli, E

Subjects
mental disorders
Abstract

Autism spectrum disorders (ASDs) are common, heritable neurodevelopmental conditions. The genetic architecture of ASDs is complex, requiring large samples to overcome heterogeneity. Here we broaden coverage and sample size relative to other studies of ASDs by using Affymetrix 10K SNP arrays and 1,168 families with at least two affected individuals, performing the largest linkage scan to date while also analyzing copy number variation in these families. Linkage and copy number variation analyses implicate chromosome 11p12-p13 and neurexins, respectively, among other candidate loci. Neurexins team with previously implicated neuroligins for glutamatergic synaptogenesis, highlighting glutamate-related genes as promising candidates for contributing to ASDs. © 2007 Nature Publishing Group.

Published
2007

22. Mapping autism risk loci using genetic linkage and chromosomal rearrangements

Author

Szatmari, P. Paterson, A.D. Zwaigenbaum, L. Roberts, W. Brian, J. Liu, X.-Q. Vincent, J.B. Skaug, J.L. Thompson, A.P. Senman, L. Feuk, L. Qian, C. Bryson, S.E. Jones, M.B. Marshall, C.R. Scherer, S.W. Vieland, V.J. Bartlett, C. Mangin, L.V. Goedken, R. Segre, A. Pericak-Vance, M.A. Cuccaro, M.L. Gilbert, J.R. Wright, H.H. Abramson, R.K. Betancur, C. Bourgeron, T. Gillberg, C. Leboyer, M. Buxbaum, J.D. Davis, K.L. Hollander, E. Silverman, J.M. Hallmayer, J. Lotspeich, L. Sutcliffe, J.S. Haines, J.L. Folstein, S.E. Piven, J. Wassink, T.H. Sheffield, V. Geschwind, D.H. Bucan, M. Brown, W.T. Cantor, R.M. Constantino, J.N. Gilliam, T.C. Herbert, M. LaJonchere, C. Ledbetter, D.H. Lese-Martin, C. Miller, J. Nelson, S. Samango-Sprouse, C.A. Spence, S. State, M. Tanzi, R.E. Coon, H. Dawson, G. Devlin, B. Estes, A. Flodman, P. Klei, L. McMahon, W.M. Minshew, N. Munson, J. Korvatska, E. Rodier, P.M. Schellenberg, G.D. Smith, M. Spence, M.A. Stodgell, C. Tepper, P.G. Wijsman, E.M. Yu, C.-E. Rogé, B. Mantoulan, C. Wittemeyer, K. Poustka, A. Felder, B. Klauck, S.M. Schuster, C. Poustka, F. Bölte, S. Feineis-Matthews, S. Herbrecht, E. Schmötzer, G. Tsiantis, J. Papanikolaou, K. Maestrini, E. Bacchelli, E. Blasi, F. Carone, S. Toma, C. Van Engeland, H. De Jonge, M. Kemner, C. Koop, F. Langemeijer, M. Hijimans, C. Staal, W.G. Baird, G. Bolton, P.F. Rutter, M.L. Weisblatt, E. Green, J. Aldred, C. Wilkinson, J.-A. Pickles, A. Le Couteur, A. Berney, T. McConachie, H. Bailey, A.J. Francis, K. Honeyman, G. Hutchinson, A. Parr, J.R. Wallace, S. Monaco, A.P. Barnby, G. Kobayashi, K. Lamb, J.A. Sousa, I. Sykes, N. Cook, E.H. Guter, S.J. Leventhal, B.L. Salt, J. Lord, C. Corsello, C. Hus, V. Weeks, D.E. Volkmar, F. Tauber, M. Fombonne, E. Shih, A.

Subjects
mental disorders
Abstract

Autism spectrum disorders (ASDs) are common, heritable neurodevelopmental conditions. The genetic architecture of ASDs is complex, requiring large samples to overcome heterogeneity. Here we broaden coverage and sample size relative to other studies of ASDs by using Affymetrix 10K SNP arrays and 1,168 families with at least two affected individuals, performing the largest linkage scan to date while also analyzing copy number variation in these families. Linkage and copy number variation analyses implicate chromosome 11p12-p13 and neurexins, respectively, among other candidate loci. Neurexins team with previously implicated neuroligins for glutamatergic synaptogenesis, highlighting glutamate-related genes as promising candidates for contributing to ASDs. © 2007 Nature Publishing Group.

Published
2007

23. Alleles of A Reelin CGG Repeat Do Not Convey Liability to Autism in A Sample from the CPEA Network

Author

Devlin, B, Bennett, P, Dawson, G, Figlewicz, DA, Grigorenko, EL, McMahon, W, Minshew, N, Pauls, D, Smith, M, Spence, MA, Rodier, PM, Stodgell, C, Coon, H, Lainart, J, Kim, SJ, Leventhal, B, Lord, C, Escamilla, J, Abbott, R, Estes, A, Munson, J, Rudell, P, and Schellenberg, GD

Abstract

A recent study by Persico et al. [2001: Mol Psychiatry 6:150-159] suggests alleles of a CGG polymorphism, just 5′ of the reelin gene (RELN) initiator codon, confer liability for autism, especially alleles bearing 11 or more CGG repeats (long alleles). The association is consistent across both a case-control and family-based sample. We attempted to replicate their finding using a larger, independent family-based sample from the NIH Collaborative Programs of Excellence in Autism (CPEA) Network. In our data, allele transmissions to individuals with autism versus unaffected individuals are unbiased, both when alleles are classified by repeat length and when they are classified into long/short categories. Because of the apparent linkage of autism to chromosome 7q, particularly related to the development of language, we also evaluate the relationship between Reelin alleles and the age at which autism subjects use their first word or first phrase. Neither is significantly associated with Reelin alleles. Our results are not consistent with a major role for Reelin alleles in liability to autism.

Published
2004

24. Over-specific perceptual learning in ASD

Author

Harris, H., primary, Egan, R., additional, Gupta, A., additional, Minshew, N., additional, Bonneh, Y., additional, Heeger, D. J., additional, Sagi, D., additional, and Behrmann, M., additional

Published
2014
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26. Practice parameter: Screening and diagnosis of autism: Report of the Quality Standards Subcommittee of the American Academy of Neurology and the Child Neurology Society

Author

Rapin, I., Ozonoff, S., Ashwal, S., Accardo, P. J., Johnson, C. P., Dawson, G., Volkmar, F. R., Stone, W. L., Rogers, S. J., Gordon, B., Gravel, J. S., Filipek, P. A., Levy, S. E., Minshew, N. J., Teplin, S. W., Prizant, B. M., Kallen, R. J., Cook Jr., E. H., Tuchman, R. F., and Baranek, G. T.

Subjects
mental disorders, behavioral disciplines and activities
Abstract

Article abstract Autism is a common disorder of childhood, affecting 1 in 500 children. Yet, it often remains unrecognized and undiagnosed until or after late preschool age because appropriate tools for routine developmental screening and screening specifically for autism have not been available. Early identification of children with autism and intensive, early intervention during the toddler and preschool years improves outcome for most young children with autism. This practice parameter reviews the available empirical evidence and gives specific recommendations for the identification of children with autism. This approach requires a dual process: 1) routine developmental surveillance and screening specifically for autism to be performed on all children to first identify those at risk for any type of atypical development, and to identify those specifically at risk for autism; and 2) to diagnose and evaluate autism, to differentiate autism from other developmental disorders.

Published
2000
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28. The autism brain imaging data exchange: towards a large-scale evaluation of the intrinsic brain architecture in autism

Author

Di Martino, A, primary, Yan, C-G, additional, Li, Q, additional, Denio, E, additional, Castellanos, F X, additional, Alaerts, K, additional, Anderson, J S, additional, Assaf, M, additional, Bookheimer, S Y, additional, Dapretto, M, additional, Deen, B, additional, Delmonte, S, additional, Dinstein, I, additional, Ertl-Wagner, B, additional, Fair, D A, additional, Gallagher, L, additional, Kennedy, D P, additional, Keown, C L, additional, Keysers, C, additional, Lainhart, J E, additional, Lord, C, additional, Luna, B, additional, Menon, V, additional, Minshew, N J, additional, Monk, C S, additional, Mueller, S, additional, Müller, R-A, additional, Nebel, M B, additional, Nigg, J T, additional, O'Hearn, K, additional, Pelphrey, K A, additional, Peltier, S J, additional, Rudie, J D, additional, Sunaert, S, additional, Thioux, M, additional, Tyszka, J M, additional, Uddin, L Q, additional, Verhoeven, J S, additional, Wenderoth, N, additional, Wiggins, J L, additional, Mostofsky, S H, additional, and Milham, M P, additional

Published
2013
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32. A genome-wide scan for common alleles affecting risk for autism

Author

Anney, R., primary, Klei, L., additional, Pinto, D., additional, Regan, R., additional, Conroy, J., additional, Magalhaes, T. R., additional, Correia, C., additional, Abrahams, B. S., additional, Sykes, N., additional, Pagnamenta, A. T., additional, Almeida, J., additional, Bacchelli, E., additional, Bailey, A. J., additional, Baird, G., additional, Battaglia, A., additional, Berney, T., additional, Bolshakova, N., additional, Bolte, S., additional, Bolton, P. F., additional, Bourgeron, T., additional, Brennan, S., additional, Brian, J., additional, Carson, A. R., additional, Casallo, G., additional, Casey, J., additional, Chu, S. H., additional, Cochrane, L., additional, Corsello, C., additional, Crawford, E. L., additional, Crossett, A., additional, Dawson, G., additional, de Jonge, M., additional, Delorme, R., additional, Drmic, I., additional, Duketis, E., additional, Duque, F., additional, Estes, A., additional, Farrar, P., additional, Fernandez, B. A., additional, Folstein, S. E., additional, Fombonne, E., additional, Freitag, C. M., additional, Gilbert, J., additional, Gillberg, C., additional, Glessner, J. T., additional, Goldberg, J., additional, Green, J., additional, Guter, S. J., additional, Hakonarson, H., additional, Heron, E. A., additional, Hill, M., additional, Holt, R., additional, Howe, J. L., additional, Hughes, G., additional, Hus, V., additional, Igliozzi, R., additional, Kim, C., additional, Klauck, S. M., additional, Kolevzon, A., additional, Korvatska, O., additional, Kustanovich, V., additional, Lajonchere, C. M., additional, Lamb, J. A., additional, Laskawiec, M., additional, Leboyer, M., additional, Le Couteur, A., additional, Leventhal, B. L., additional, Lionel, A. C., additional, Liu, X.-Q., additional, Lord, C., additional, Lotspeich, L., additional, Lund, S. C., additional, Maestrini, E., additional, Mahoney, W., additional, Mantoulan, C., additional, Marshall, C. R., additional, McConachie, H., additional, McDougle, C. J., additional, McGrath, J., additional, McMahon, W. M., additional, Melhem, N. M., additional, Merikangas, A., additional, Migita, O., additional, Minshew, N. J., additional, Mirza, G. K., additional, Munson, J., additional, Nelson, S. F., additional, Noakes, C., additional, Noor, A., additional, Nygren, G., additional, Oliveira, G., additional, Papanikolaou, K., additional, Parr, J. R., additional, Parrini, B., additional, Paton, T., additional, Pickles, A., additional, Piven, J., additional, Posey, D. J., additional, Poustka, A., additional, Poustka, F., additional, Prasad, A., additional, Ragoussis, J., additional, Renshaw, K., additional, Rickaby, J., additional, Roberts, W., additional, Roeder, K., additional, Roge, B., additional, Rutter, M. L., additional, Bierut, L. J., additional, Rice, J. P., additional, Salt, J., additional, Sansom, K., additional, Sato, D., additional, Segurado, R., additional, Senman, L., additional, Shah, N., additional, Sheffield, V. C., additional, Soorya, L., additional, Sousa, I., additional, Stoppioni, V., additional, Strawbridge, C., additional, Tancredi, R., additional, Tansey, K., additional, Thiruvahindrapduram, B., additional, Thompson, A. P., additional, Thomson, S., additional, Tryfon, A., additional, Tsiantis, J., additional, Van Engeland, H., additional, Vincent, J. B., additional, Volkmar, F., additional, Wallace, S., additional, Wang, K., additional, Wang, Z., additional, Wassink, T. H., additional, Wing, K., additional, Wittemeyer, K., additional, Wood, S., additional, Yaspan, B. L., additional, Zurawiecki, D., additional, Zwaigenbaum, L., additional, Betancur, C., additional, Buxbaum, J. D., additional, Cantor, R. M., additional, Cook, E. H., additional, Coon, H., additional, Cuccaro, M. L., additional, Gallagher, L., additional, Geschwind, D. H., additional, Gill, M., additional, Haines, J. L., additional, Miller, J., additional, Monaco, A. P., additional, Nurnberger, J. I., additional, Paterson, A. D., additional, Pericak-Vance, M. A., additional, Schellenberg, G. D., additional, Scherer, S. W., additional, Sutcliffe, J. S., additional, Szatmari, P., additional, Vicente, A. M., additional, Vieland, V. J., additional, Wijsman, E. M., additional, Devlin, B., additional, Ennis, S., additional, and Hallmayer, J., additional

Published
2010
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41. Autism's home in the brain

Author

Simon, N., primary, Rapin, I., additional, DeLong, G. R., additional, Minshew, N., additional, Muller, R.-A., additional, and Courchesne, E., additional

Published
2000
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44. [Untitled]

Author

Minshew N

Subjects
biology, Developmental and Educational Psychology, biology.protein, MEDLINE, medicine, Neuropeptide, Autism, medicine.disease, Psychology, Neuroscience, Neurotrophin
Published
2001

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