Publications

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2020
Kim-Hellmuth, S. et al. Cell type-specific genetic regulation of gene expression across human tissues. Science 369, (2020).
Shayota, B. J. et al. Characterization of the Robinow syndrome skeletal phenotype, bone micro-architecture, and genotype-phenotype correlations with the osteosclerotic form. Am J Med Genet A 182, 2632-2640 (2020).
Yuan, B. et al. CNVs cause autosomal recessive genetic diseases with or without involvement of SNV/indels. Genet Med 22, 1633-1641 (2020).
Yuan, B. et al. CNVs cause autosomal recessive genetic diseases with or without involvement of SNV/indels. Genet Med 22, 1633-1641 (2020).
Stavusis, J. et al. Collagen VI-related limb-girdle syndrome caused by frequent mutation in COL6A3 gene with conflicting reports of pathogenicity. Neuromuscul Disord 30, 483-491 (2020).
Biffi, A. et al. Combining Imaging and Genetics to Predict Recurrence of Anticoagulation-Associated Intracerebral Hemorrhage. Stroke 51, 2153-2160 (2020).
Biffi, A. et al. Combining Imaging and Genetics to Predict Recurrence of Anticoagulation-Associated Intracerebral Hemorrhage. Stroke 51, 2153-2160 (2020).
Biffi, A. et al. Combining Imaging and Genetics to Predict Recurrence of Anticoagulation-Associated Intracerebral Hemorrhage. Stroke 51, 2153-2160 (2020).
Walker, R. W. et al. A common variant in PNPLA3 is associated with age at diagnosis of NAFLD in patients from a multi-ethnic biobank. J Hepatol 72, 1070-1081 (2020).
Sabo, A. et al. Community-based recruitment and exome sequencing indicates high diagnostic yield in adults with intellectual disability. Mol Genet Genomic Med 8, e1439 (2020).
Sabo, A. et al. Community-based recruitment and exome sequencing indicates high diagnostic yield in adults with intellectual disability. Mol Genet Genomic Med 8, e1439 (2020).
Sabo, A. et al. Community-based recruitment and exome sequencing indicates high diagnostic yield in adults with intellectual disability. Mol Genet Genomic Med 8, e1439 (2020).
Sekar, S. et al. Complex mosaic structural variations in human fetal brains. Genome Res 30, 1695-1704 (2020).
Sekar, S. et al. Complex mosaic structural variations in human fetal brains. Genome Res 30, 1695-1704 (2020).
Morton, S. U. et al. Congenital Heart Defects Due to Missense Variants. Circ Genom Precis Med 13, e002843 (2020).
Morton, S. U. et al. Congenital Heart Defects Due to Missense Variants. Circ Genom Precis Med 13, e002843 (2020).
Balaraju, S. et al. Congenital myasthenic syndrome with mild intellectual disability caused by a recurrent SLC25A1 variant. Eur J Hum Genet 28, 373-377 (2020).
Balaraju, S. et al. Congenital myasthenic syndrome with mild intellectual disability caused by a recurrent SLC25A1 variant. Eur J Hum Genet 28, 373-377 (2020).
Balaraju, S. et al. Congenital myasthenic syndrome with mild intellectual disability caused by a recurrent SLC25A1 variant. Eur J Hum Genet 28, 373-377 (2020).
Brasó-Vives, M. et al. Copy number variants and fixed duplications among 198 rhesus macaques (Macaca mulatta). PLoS Genet 16, e1008742 (2020).
Conlon, C. J. et al. Craniofacial phenotypes associated with Robinow syndrome. Am J Med Genet A (2020). doi:10.1002/ajmg.a.61986
Schneider, R. et al. DAAM2 Variants Cause Nephrotic Syndrome via Actin Dysregulation. Am J Hum Genet 107, 1113-1128 (2020).
Schneider, R. et al. DAAM2 Variants Cause Nephrotic Syndrome via Actin Dysregulation. Am J Hum Genet 107, 1113-1128 (2020).
Schneider, R. et al. DAAM2 Variants Cause Nephrotic Syndrome via Actin Dysregulation. Am J Hum Genet 107, 1113-1128 (2020).
Schneider, R. et al. DAAM2 Variants Cause Nephrotic Syndrome via Actin Dysregulation. Am J Hum Genet 107, 1113-1128 (2020).
Schneider, R. et al. DAAM2 Variants Cause Nephrotic Syndrome via Actin Dysregulation. Am J Hum Genet 107, 1113-1128 (2020).
Li, C. et al. dbMTS: A comprehensive database of putative human microRNA target site SNVs and their functional predictions. Hum Mutat 41, 1123-1130 (2020).
Mirzaa, G. M. et al. De novo and inherited variants in ZNF292 underlie a neurodevelopmental disorder with features of autism spectrum disorder. Genet Med 22, 538-546 (2020).
Mirzaa, G. M. et al. De novo and inherited variants in ZNF292 underlie a neurodevelopmental disorder with features of autism spectrum disorder. Genet Med 22, 538-546 (2020).
Mirzaa, G. M. et al. De novo and inherited variants in ZNF292 underlie a neurodevelopmental disorder with features of autism spectrum disorder. Genet Med 22, 538-546 (2020).
Mirzaa, G. M. et al. De novo and inherited variants in ZNF292 underlie a neurodevelopmental disorder with features of autism spectrum disorder. Genet Med 22, 538-546 (2020).
Mirzaa, G. M. et al. De novo and inherited variants in ZNF292 underlie a neurodevelopmental disorder with features of autism spectrum disorder. Genet Med 22, 538-546 (2020).
Mirzaa, G. M. et al. De novo and inherited variants in ZNF292 underlie a neurodevelopmental disorder with features of autism spectrum disorder. Genet Med 22, 538-546 (2020).
Mirzaa, G. M. et al. De novo and inherited variants in ZNF292 underlie a neurodevelopmental disorder with features of autism spectrum disorder. Genet Med 22, 538-546 (2020).
Boskovski, M. T. et al. De Novo Damaging Variants, Clinical Phenotypes, and Post-Operative Outcomes in Congenital Heart Disease. Circ Genom Precis Med 13, e002836 (2020).
Boskovski, M. T. et al. De Novo Damaging Variants, Clinical Phenotypes, and Post-Operative Outcomes in Congenital Heart Disease. Circ Genom Precis Med 13, e002836 (2020).
Boskovski, M. T. et al. De Novo Damaging Variants, Clinical Phenotypes, and Post-Operative Outcomes in Congenital Heart Disease. Circ Genom Precis Med 13, e002836 (2020).
Boskovski, M. T. et al. De Novo Damaging Variants, Clinical Phenotypes, and Post-Operative Outcomes in Congenital Heart Disease. Circ Genom Precis Med 13, e002836 (2020).
Mao, D. et al. De novo EIF2AK1 and EIF2AK2 Variants Are Associated with Developmental Delay, Leukoencephalopathy, and Neurologic Decompensation. Am J Hum Genet 106, 570-583 (2020).
Mao, D. et al. De novo EIF2AK1 and EIF2AK2 Variants Are Associated with Developmental Delay, Leukoencephalopathy, and Neurologic Decompensation. Am J Hum Genet 106, 570-583 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Ravell, J. C. et al. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease. J Clin Invest 130, 507-522 (2020).
Van Bergen, N. J. et al. Deficiencies in vesicular transport mediated by TRAPPC4 are associated with severe syndromic intellectual disability. Brain 143, 112-130 (2020).
Van Bergen, N. J. et al. Deficiencies in vesicular transport mediated by TRAPPC4 are associated with severe syndromic intellectual disability. Brain 143, 112-130 (2020).

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