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S

Winawer, M. R. et al. Somatic SLC35A2 variants in the brain are associated with intractable neocortical epilepsy. Ann Neurol 83, 1133-1146 (2018).

Paketci, C. et al. Successful treatment of intractable epilepsy with ketogenic diet therapy in twins with ALG3-CDG. Brain Dev 42, 539-545 (2020).

Jung, I. - H. et al. SVEP1 is a human coronary artery disease locus that promotes atherosclerosis. Sci Transl Med 13, (2021).

You, J. et al. A Syndromic Intellectual Disability Disorder Caused by Variants in TELO2, a Gene Encoding a Component of the TTT Complex. Am J Hum Genet 98, 909-918 (2016).

Edwards, J. J. et al. Systems Analysis Implicates WAVE2 Complex in the Pathogenesis of Developmental Left-Sided Obstructive Heart Defects. JACC Basic Transl Sci 5, 376-386 (2020).

T

Yang, N. et al. TBX6 compound inheritance leads to congenital vertebral malformations in humans and mice. Hum Mol Genet 28, 539-547 (2019).

Chen, W. et al. TBX6 missense variants expand the mutational spectrum in a non-Mendelian inheritance disease. Hum Mutat 41, 182-195 (2020).

Chen, W. et al. TBX6 missense variants expand the mutational spectrum in a non-Mendelian inheritance disease. Hum Mutat 41, 182-195 (2020).

Chen, W. et al. TBX6 missense variants expand the mutational spectrum in a non-Mendelian inheritance disease. Hum Mutat 41, 182-195 (2020).

Chen, W. et al. TBX6 missense variants expand the mutational spectrum in a non-Mendelian inheritance disease. Hum Mutat 41, 182-195 (2020).

Chen, W. et al. TBX6 missense variants expand the mutational spectrum in a non-Mendelian inheritance disease. Hum Mutat 41, 182-195 (2020).

Wu, N. et al. TBX6 null variants and a common hypomorphic allele in congenital scoliosis. N Engl J Med 372, 341-50 (2015).

Wu, N. et al. TBX6 null variants and a common hypomorphic allele in congenital scoliosis. N Engl J Med 372, 341-50 (2015).

Liu, J. et al. TBX6-associated congenital scoliosis (TACS) as a clinically distinguishable subtype of congenital scoliosis: further evidence supporting the compound inheritance and TBX6 gene dosage model. Genet Med 21, 1548-1558 (2019).

Liu, J. et al. TBX6-associated congenital scoliosis (TACS) as a clinically distinguishable subtype of congenital scoliosis: further evidence supporting the compound inheritance and TBX6 gene dosage model. Genet Med 21, 1548-1558 (2019).

Liu, J. et al. TBX6-associated congenital scoliosis (TACS) as a clinically distinguishable subtype of congenital scoliosis: further evidence supporting the compound inheritance and TBX6 gene dosage model. Genet Med 21, 1548-1558 (2019).

Liu, J. et al. TBX6-associated congenital scoliosis (TACS) as a clinically distinguishable subtype of congenital scoliosis: further evidence supporting the compound inheritance and TBX6 gene dosage model. Genet Med 21, 1548-1558 (2019).

Liu, J. et al. TBX6-associated congenital scoliosis (TACS) as a clinically distinguishable subtype of congenital scoliosis: further evidence supporting the compound inheritance and TBX6 gene dosage model. Genet Med 21, 1548-1558 (2019).

Fung, J. L. F. et al. A three-year follow-up study evaluating clinical utility of exome sequencing and diagnostic potential of reanalysis. NPJ Genom Med 5, 37 (2020).

Wiszniewski, W. et al. TM4SF20 ancestral deletion and susceptibility to a pediatric disorder of early language delay and cerebral white matter hyperintensities. Am J Hum Genet 93, 197-210 (2013).

Wiszniewski, W. et al. TM4SF20 ancestral deletion and susceptibility to a pediatric disorder of early language delay and cerebral white matter hyperintensities. Am J Hum Genet 93, 197-210 (2013).

Cheng, H. et al. Truncating Variants in NAA15 Are Associated with Variable Levels of Intellectual Disability, Autism Spectrum Disorder, and Congenital Anomalies. Am J Hum Genet 102, 985-994 (2018).

Cheng, H. et al. Truncating Variants in NAA15 Are Associated with Variable Levels of Intellectual Disability, Autism Spectrum Disorder, and Congenital Anomalies. Am J Hum Genet 102, 985-994 (2018).

Timberlake, A. T. et al. Two locus inheritance of non-syndromic midline craniosynostosis via rare and common alleles. Elife 5, (2016).

Efthymiou, S. et al. Two novel bi-allelic KDELR2 missense variants cause osteogenesis imperfecta with neurodevelopmental features. Am J Med Genet A (2021). doi:10.1002/ajmg.a.62221

Yi, J. - S., Perla, S., Enyenihi, L. & Bennett, A. M. Tyrosyl phosphorylation of PZR promotes hypertrophic cardiomyopathy in PTPN11-associated Noonan syndrome with multiple lentigines. JCI Insight 5, (2020).

U

Schmitz-Abe, K. et al. Unique bioinformatic approach and comprehensive reanalysis improve diagnostic yield of clinical exomes. Eur J Hum Genet (2019). doi:10.1038/s41431-019-0401-x

Meng, L. et al. Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).

V

Bayer, D. K. et al. Vaccine-associated varicella and rubella infections in severe combined immunodeficiency with isolated CD4 lymphocytopenia and mutations in IL7R detected by tandem whole exome sequencing and chromosomal microarray. Clin Exp Immunol 178, 459-69 (2014).

Huang, Y. et al. Variants in CAPZA2, a member of an F-actin capping complex, cause intellectual disability and developmental delay. Hum Mol Genet 29, 1537-1546 (2020).

Huang, Y. et al. Variants in CAPZA2, a member of an F-actin capping complex, cause intellectual disability and developmental delay. Hum Mol Genet 29, 1537-1546 (2020).

O'Grady, G. L. et al. Variants in SLC18A3, vesicular acetylcholine transporter, cause congenital myasthenic syndrome. Neurology 87, 1442-1448 (2016).

James, R. A. et al. A visual and curatorial approach to clinical variant prioritization and disease gene discovery in genome-wide diagnostics. Genome Med 8, 13 (2016).

W

Yu, L. et al. Whole exome sequencing identifies de novo mutations in GATA6 associated with congenital diaphragmatic hernia. J Med Genet 51, 197-202 (2014).

Bayram, Y. et al. Whole exome sequencing identifies three novel mutations in ANTXR1 in families with GAPO syndrome. Am J Med Genet A 164A, 2328-34 (2014).

Caglayan, A. O. et al. Whole-exome sequencing identified a patient with TMCO1 defect syndrome and expands the phenotic spectrum. Clin Genet 84, 394-5 (2013).

Karaca, E. et al. Whole-exome sequencing identifies homozygous GPR161 mutation in a family with pituitary stalk interruption syndrome. J Clin Endocrinol Metab 100, E140-7 (2015).

Karaca, E. et al. Whole-exome sequencing identifies homozygous GPR161 mutation in a family with pituitary stalk interruption syndrome. J Clin Endocrinol Metab 100, E140-7 (2015).

Ramasamy, R. et al. Whole-exome sequencing identifies novel homozygous mutation in NPAS2 in family with nonobstructive azoospermia. Fertil Steril 104, 286-91 (2015).

Bekheirnia, M. Reza et al. Whole-exome sequencing in the molecular diagnosis of individuals with congenital anomalies of the kidney and urinary tract and identification of a new causative gene. Genet Med 19, 412-420 (2017).

Levinsohn, J. L. et al. Whole-exome sequencing reveals somatic mutations in HRAS and KRAS, which cause nevus sebaceus. J Invest Dermatol 133, 827-830 (2013).

Coban-Akdemir, Z. H. et al. Wolff-Parkinson-White syndrome: De novo variants and evidence for mutational burden in genes associated with atrial fibrillation. Am J Med Genet A 182, 1387-1399 (2020).

X

Beckers, A. et al. X-linked acrogigantism syndrome: clinical profile and therapeutic responses. Endocr Relat Cancer 22, 353-67 (2015).

Beckers, A. et al. X-linked acrogigantism syndrome: clinical profile and therapeutic responses. Endocr Relat Cancer 22, 353-67 (2015).

Trivellin, G. et al. Xq26.3 Duplication in a Boy With Motor Delay and Low Muscle Tone Refines the X-Linked Acrogigantism Genetic Locus. J Endocr Soc 2, 1100-1108 (2018).

Γ

Chen, S., Mattei, P., You, J., Sobreira, N. L. & Hinds, G. A. γ-Secretase Mutation in an African American Family With Hidradenitis Suppurativa. JAMA Dermatol 151, 668-70 (2015).

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