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CHRNA7 TRIPLICATION ASSOCIATED WITH COGNITIVE IMPAIRMENT AND NEUROPSYCHIATRIC PHENOTYPES IN A THREE-GENERATION PEDIGREE
copy number variation
cholinergic nervous system
autism spectrum disorder
Author
Affilliation
University of Texas Health Science Center.Division of Medical Genetics. Department of Pediatrics. Houston, TX, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA /Fundação Oswaldo Cruz. Centro de Pesquisas René Rachou. Belo Horizonte, MG, Brazil.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Parkview Health Laboratories. Genetics Center. Fort Wayne, IN, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Parkview Health Laboratories. Genetics Center. Fort Wayne, IN, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA/Texas Children's Hospital. Department of Pediatrics. Houston, TX, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA /Texas Children's Hospital. The Jan and Dan Duncan Neurological Research Institute. Houston, TX, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA /Fundação Oswaldo Cruz. Centro de Pesquisas René Rachou. Belo Horizonte, MG, Brazil.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Parkview Health Laboratories. Genetics Center. Fort Wayne, IN, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Parkview Health Laboratories. Genetics Center. Fort Wayne, IN, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA/Texas Children's Hospital. Department of Pediatrics. Houston, TX, USA.
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA
Baylor College of Medicine. Department of Molecular and Human Genetics. Houston, TX, USA /Texas Children's Hospital. The Jan and Dan Duncan Neurological Research Institute. Houston, TX, USA.
Abstract
Although deletions of CHRNA7 have been associated with intellectual disability (ID), seizures and neuropsychiatric phenotypes, the pathogenicity of CHRNA7 duplications has been uncertain. We present the first report of CHRNA7 triplication. Three generations of a family affected with various neuropsychiatric phenotypes, including anxiety, bipolar disorder, developmental delay and ID, were studied with array comparative genomic hybridization (aCGH). High-resolution aCGH revealed a 650-kb triplication at chromosome 15q13.3 encompassing the CHRNA7 gene, which encodes the alpha7 subunit of the neuronal nicotinic acetylcholine receptor. A small duplication precedes the triplication at the proximal breakpoint junction, and analysis of the breakpoint indicates that the triplicated segment is in an inverted orientation with respect to the duplication. CHRNA7 triplication appears to occur by a replication-based mechanism that produces inverted triplications embedded within duplications. Co-segregation of the CHRNA7 triplication with neuropsychiatric and cognitive phenotypes provides further evidence for dosage sensitivity of CHRNA7.
Keywords
dosage sensitivitycopy number variation
cholinergic nervous system
autism spectrum disorder
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