Publications

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2019
Donkervoort, S. et al. MSTO1 mutations cause mtDNA depletion, manifesting as muscular dystrophy with cerebellar involvement. Acta Neuropathol 138, 1013-1031 (2019).
Donkervoort, S. et al. MSTO1 mutations cause mtDNA depletion, manifesting as muscular dystrophy with cerebellar involvement. Acta Neuropathol 138, 1013-1031 (2019).
Donkervoort, S. et al. MSTO1 mutations cause mtDNA depletion, manifesting as muscular dystrophy with cerebellar involvement. Acta Neuropathol 138, 1013-1031 (2019).
Timberlake, A. T. et al. Mutations in and previously unimplicated genes of the BMP, Wnt, and Hedgehog pathways in syndromic craniosynostosis. Proc Natl Acad Sci U S A 116, 15116-15121 (2019).
Solanki, A. K. et al. Mutations in KIRREL1, a slit diaphragm component, cause steroid-resistant nephrotic syndrome. Kidney Int 96, 883-889 (2019).
Solanki, A. K. et al. Mutations in KIRREL1, a slit diaphragm component, cause steroid-resistant nephrotic syndrome. Kidney Int 96, 883-889 (2019).
Solanki, A. K. et al. Mutations in KIRREL1, a slit diaphragm component, cause steroid-resistant nephrotic syndrome. Kidney Int 96, 883-889 (2019).
Duchatelet, S. et al. Mutations in PERP Cause Dominant and Recessive Keratoderma. J Invest Dermatol 139, 380-390 (2019).
Duchatelet, S. et al. Mutations in PERP Cause Dominant and Recessive Keratoderma. J Invest Dermatol 139, 380-390 (2019).
Duchatelet, S. et al. Mutations in PERP Cause Dominant and Recessive Keratoderma. J Invest Dermatol 139, 380-390 (2019).
Kasapkara, Ç. Seher et al. A new NBIA patient from Turkey with homozygous C19ORF12 mutation. Acta Neurol Belg 119, 623-625 (2019).
Staretz-Chacham, O. et al. Novel homozygous ENPP1 mutation causes generalized arterial calcifications of infancy, thrombocytopenia, and cardiovascular and central nervous system syndrome. Am J Med Genet A 179, 2112-2118 (2019).
Schulze, K. V. et al. Novel parent-of-origin-specific differentially methylated loci on chromosome 16. Clin Epigenetics 11, 60 (2019).
Schulze, K. V. et al. Novel parent-of-origin-specific differentially methylated loci on chromosome 16. Clin Epigenetics 11, 60 (2019).
Schulze, K. V. et al. Novel parent-of-origin-specific differentially methylated loci on chromosome 16. Clin Epigenetics 11, 60 (2019).
Qualls, A. E. et al. Novel SPEG mutations in congenital myopathies: Genotype-phenotype correlations. Muscle Nerve 59, 357-362 (2019).
Paine, I. et al. Paralog Studies Augment Gene Discovery: DDX and DHX Genes. Am J Hum Genet 105, 302-316 (2019).
Paine, I. et al. Paralog Studies Augment Gene Discovery: DDX and DHX Genes. Am J Hum Genet 105, 302-316 (2019).
Paine, I. et al. Paralog Studies Augment Gene Discovery: DDX and DHX Genes. Am J Hum Genet 105, 302-316 (2019).
Fichtman, B. et al. Pathogenic Variants in NUP214 Cause "Plugged" Nuclear Pore Channels and Acute Febrile Encephalopathy. Am J Hum Genet 105, 48-64 (2019).
Fichtman, B. et al. Pathogenic Variants in NUP214 Cause "Plugged" Nuclear Pore Channels and Acute Febrile Encephalopathy. Am J Hum Genet 105, 48-64 (2019).
Fichtman, B. et al. Pathogenic Variants in NUP214 Cause "Plugged" Nuclear Pore Channels and Acute Febrile Encephalopathy. Am J Hum Genet 105, 48-64 (2019).
Liu, P. et al. Reanalysis of Clinical Exome Sequencing Data. N Engl J Med 380, 2478-2480 (2019).
Estañ, M. Cristina et al. Recessive mutations in muscle-specific isoforms of FXR1 cause congenital multi-minicore myopathy. Nat Commun 10, 797 (2019).
Estañ, M. Cristina et al. Recessive mutations in muscle-specific isoforms of FXR1 cause congenital multi-minicore myopathy. Nat Commun 10, 797 (2019).
Estañ, M. Cristina et al. Recessive mutations in muscle-specific isoforms of FXR1 cause congenital multi-minicore myopathy. Nat Commun 10, 797 (2019).
Estañ, M. Cristina et al. Recessive mutations in muscle-specific isoforms of FXR1 cause congenital multi-minicore myopathy. Nat Commun 10, 797 (2019).
Bolduc, V. et al. A recurrent COL6A1 pseudoexon insertion causes muscular dystrophy and is effectively targeted by splice-correction therapies. JCI Insight 4, (2019).
Bolduc, V. et al. A recurrent COL6A1 pseudoexon insertion causes muscular dystrophy and is effectively targeted by splice-correction therapies. JCI Insight 4, (2019).
Aldinger, K. A. et al. Redefining the Etiologic Landscape of Cerebellar Malformations. Am J Hum Genet 105, 606-615 (2019).
Aldinger, K. A. et al. Redefining the Etiologic Landscape of Cerebellar Malformations. Am J Hum Genet 105, 606-615 (2019).
Aldinger, K. A. et al. Redefining the Etiologic Landscape of Cerebellar Malformations. Am J Hum Genet 105, 606-615 (2019).
Aldinger, K. A. et al. Redefining the Etiologic Landscape of Cerebellar Malformations. Am J Hum Genet 105, 606-615 (2019).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Zweier, M. et al. Spatially clustering de novo variants in CYFIP2, encoding the cytoplasmic FMRP interacting protein 2, cause intellectual disability and seizures. Eur J Hum Genet 27, 747-759 (2019).
Zweier, M. et al. Spatially clustering de novo variants in CYFIP2, encoding the cytoplasmic FMRP interacting protein 2, cause intellectual disability and seizures. Eur J Hum Genet 27, 747-759 (2019).
J Bodkin, A. et al. Targeted Treatment of Individuals With Psychosis Carrying a Copy Number Variant Containing a Genomic Triplication of the Glycine Decarboxylase Gene. Biol Psychiatry 86, 523-535 (2019).
J Bodkin, A. et al. Targeted Treatment of Individuals With Psychosis Carrying a Copy Number Variant Containing a Genomic Triplication of the Glycine Decarboxylase Gene. Biol Psychiatry 86, 523-535 (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).
Ullah, I. et al. Variants in KIAA0825 underlie autosomal recessive postaxial polydactyly. Hum Genet 138, 593-600 (2019).
Ullah, I. et al. Variants in KIAA0825 underlie autosomal recessive postaxial polydactyly. Hum Genet 138, 593-600 (2019).
Mann, N. et al. Whole-Exome Sequencing Enables a Precision Medicine Approach for Kidney Transplant Recipients. J Am Soc Nephrol 30, 201-215 (2019).
Mann, N. et al. Whole-Exome Sequencing Enables a Precision Medicine Approach for Kidney Transplant Recipients. J Am Soc Nephrol 30, 201-215 (2019).
Carapito, R. et al. ZMIZ1 Variants Cause a Syndromic Neurodevelopmental Disorder. Am J Hum Genet 104, 319-330 (2019).
Carapito, R. et al. ZMIZ1 Variants Cause a Syndromic Neurodevelopmental Disorder. Am J Hum Genet 104, 319-330 (2019).
Carapito, R. et al. ZMIZ1 Variants Cause a Syndromic Neurodevelopmental Disorder. Am J Hum Genet 104, 319-330 (2019).
Carapito, R. et al. ZMIZ1 Variants Cause a Syndromic Neurodevelopmental Disorder. Am J Hum Genet 104, 319-330 (2019).
Carapito, R. et al. ZMIZ1 Variants Cause a Syndromic Neurodevelopmental Disorder. Am J Hum Genet 104, 319-330 (2019).
2018
Hermle, T. et al. and Mutations Implicate RAB5 Regulation in Nephrotic Syndrome. J Am Soc Nephrol 29, 2123-2138 (2018).
Hermle, T. et al. and Mutations Implicate RAB5 Regulation in Nephrotic Syndrome. J Am Soc Nephrol 29, 2123-2138 (2018).

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