Publications

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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).
Bryen, S. J. et al. Pathogenic Abnormal Splicing Due to Intronic Deletions that Induce Biophysical Space Constraint for Spliceosome Assembly. Am J Hum Genet 105, 573-587 (2019).
Bryen, S. J. et al. Pathogenic Abnormal Splicing Due to Intronic Deletions that Induce Biophysical Space Constraint for Spliceosome Assembly. Am J Hum Genet 105, 573-587 (2019).
Amor, D. J. et al. Pathogenic Variants in GPC4 Cause Keipert Syndrome. Am J Hum Genet 104, 914-924 (2019).
Amor, D. J. et al. Pathogenic Variants in GPC4 Cause Keipert Syndrome. Am J Hum Genet 104, 914-924 (2019).
Amor, D. J. et al. Pathogenic Variants in GPC4 Cause Keipert Syndrome. Am J Hum Genet 104, 914-924 (2019).
Oswiecimska, J. et al. A Patient with Berardinelli-Seip Syndrome, Novel Splicesite Mutation and Concomitant Development of Non-diabetic Polyneuropathy. J Clin Res Pediatr Endocrinol 11, 319-326 (2019).
Davis, S. D. et al. Primary Ciliary Dyskinesia: Longitudinal Study of Lung Disease by Ultrastructure Defect and Genotype. Am J Respir Crit Care Med 199, 190-198 (2019).
Davis, S. D. et al. Primary Ciliary Dyskinesia: Longitudinal Study of Lung Disease by Ultrastructure Defect and Genotype. Am J Respir Crit Care Med 199, 190-198 (2019).
Liu, P. et al. Reanalysis of Clinical Exome Sequencing Data. N Engl J Med 380, 2478-2480 (2019).
Liu, P. et al. Reanalysis of Clinical Exome Sequencing Data. N Engl J Med 380, 2478-2480 (2019).
Liu, P. et al. Reanalysis of Clinical Exome Sequencing Data. N Engl J Med 380, 2478-2480 (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).
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).
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).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Gould, R. A. et al. ROBO4 variants predispose individuals to bicuspid aortic valve and thoracic aortic aneurysm. Nat Genet 51, 42-50 (2019).
Duan, X. - Y. et al. SMAD4 rare variants in individuals and families with thoracic aortic aneurysms and dissections. Eur J Hum Genet 27, 1054-1060 (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).
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).
Yang, N. et al. TBX6 compound inheritance leads to congenital vertebral malformations in humans and mice. Hum Mol Genet 28, 539-547 (2019).
Yang, N. et al. TBX6 compound inheritance leads to congenital vertebral malformations in humans and mice. Hum Mol Genet 28, 539-547 (2019).
Yang, N. et al. TBX6 compound inheritance leads to congenital vertebral malformations in humans and mice. Hum Mol Genet 28, 539-547 (2019).
Yang, N. et al. TBX6 compound inheritance leads to congenital vertebral malformations in humans and mice. Hum Mol Genet 28, 539-547 (2019).
Yang, N. et al. TBX6 compound inheritance leads to congenital vertebral malformations in humans and mice. Hum Mol Genet 28, 539-547 (2019).
Yang, N. et al. TBX6 compound inheritance leads to congenital vertebral malformations in humans and mice. Hum Mol Genet 28, 539-547 (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).
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).

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