Publications

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2015
Rehman, A. U. et al. Challenges and solutions for gene identification in the presence of familial locus heterogeneity. Eur J Hum Genet 23, 1207-15 (2015).
Rehman, A. U. et al. Challenges and solutions for gene identification in the presence of familial locus heterogeneity. Eur J Hum Genet 23, 1207-15 (2015).
Rehman, A. U. et al. Challenges and solutions for gene identification in the presence of familial locus heterogeneity. Eur J Hum Genet 23, 1207-15 (2015).
Rehman, A. U. et al. Challenges and solutions for gene identification in the presence of familial locus heterogeneity. Eur J Hum Genet 23, 1207-15 (2015).
Rehman, A. U. et al. Challenges and solutions for gene identification in the presence of familial locus heterogeneity. Eur J Hum Genet 23, 1207-15 (2015).
Rehman, A. U. et al. Challenges and solutions for gene identification in the presence of familial locus heterogeneity. Eur J Hum Genet 23, 1207-15 (2015).
Yuan, B. et al. Comparative Genomic Analyses of the Human NPHP1 Locus Reveal Complex Genomic Architecture and Its Regional Evolution in Primates. PLoS Genet 11, e1005686 (2015).
Yuan, B. et al. Comparative Genomic Analyses of the Human NPHP1 Locus Reveal Complex Genomic Architecture and Its Regional Evolution in Primates. PLoS Genet 11, e1005686 (2015).
Beck, C. R. et al. Complex genomic rearrangements at the PLP1 locus include triplication and quadruplication. PLoS Genet 11, e1005050 (2015).
Beck, C. R. et al. Complex genomic rearrangements at the PLP1 locus include triplication and quadruplication. PLoS Genet 11, e1005050 (2015).
Beck, C. R. et al. Complex genomic rearrangements at the PLP1 locus include triplication and quadruplication. PLoS Genet 11, e1005050 (2015).
Watkin, L. B. et al. COPA mutations impair ER-Golgi transport and cause hereditary autoimmune-mediated lung disease and arthritis. Nat Genet 47, 654-60 (2015).
Watkin, L. B. et al. COPA mutations impair ER-Golgi transport and cause hereditary autoimmune-mediated lung disease and arthritis. Nat Genet 47, 654-60 (2015).
Watkin, L. B. et al. COPA mutations impair ER-Golgi transport and cause hereditary autoimmune-mediated lung disease and arthritis. Nat Genet 47, 654-60 (2015).
Watkin, L. B. et al. COPA mutations impair ER-Golgi transport and cause hereditary autoimmune-mediated lung disease and arthritis. Nat Genet 47, 654-60 (2015).
Wolfson, Y., Applegate, C. D., Strauss, R. W., Han, I. C. & Scholl, H. P. CRB1-Related Maculopathy With Cystoid Macular Edema. JAMA Ophthalmol 133, 1357-60 (2015).
Wolfson, Y., Applegate, C. D., Strauss, R. W., Han, I. C. & Scholl, H. P. CRB1-Related Maculopathy With Cystoid Macular Edema. JAMA Ophthalmol 133, 1357-60 (2015).
Burrage, L. C. et al. De Novo GMNN Mutations Cause Autosomal-Dominant Primordial Dwarfism Associated with Meier-Gorlin Syndrome. Am J Hum Genet 97, 904-13 (2015).
Chong, J. X. et al. De novo mutations in NALCN cause a syndrome characterized by congenital contractures of the limbs and face, hypotonia, and developmental delay. Am J Hum Genet 96, 462-73 (2015).
Chong, J. X. et al. De novo mutations in NALCN cause a syndrome characterized by congenital contractures of the limbs and face, hypotonia, and developmental delay. Am J Hum Genet 96, 462-73 (2015).
Chong, J. X. et al. De novo mutations in NALCN cause a syndrome characterized by congenital contractures of the limbs and face, hypotonia, and developmental delay. Am J Hum Genet 96, 462-73 (2015).
Chong, J. X. et al. De novo mutations in NALCN cause a syndrome characterized by congenital contractures of the limbs and face, hypotonia, and developmental delay. Am J Hum Genet 96, 462-73 (2015).
Chong, J. X. et al. De novo mutations in NALCN cause a syndrome characterized by congenital contractures of the limbs and face, hypotonia, and developmental delay. Am J Hum Genet 96, 462-73 (2015).
Chong, J. X. et al. De novo mutations in NALCN cause a syndrome characterized by congenital contractures of the limbs and face, hypotonia, and developmental delay. Am J Hum Genet 96, 462-73 (2015).
Mayle, R. et al. DNA REPAIR. Mus81 and converging forks limit the mutagenicity of replication fork breakage. Science 349, 742-7 (2015).
White, J. et al. DVL1 frameshift mutations clustering in the penultimate exon cause autosomal-dominant Robinow syndrome. Am J Hum Genet 96, 612-22 (2015).
White, J. et al. DVL1 frameshift mutations clustering in the penultimate exon cause autosomal-dominant Robinow syndrome. Am J Hum Genet 96, 612-22 (2015).
White, J. et al. DVL1 frameshift mutations clustering in the penultimate exon cause autosomal-dominant Robinow syndrome. Am J Hum Genet 96, 612-22 (2015).
White, J. et al. DVL1 frameshift mutations clustering in the penultimate exon cause autosomal-dominant Robinow syndrome. Am J Hum Genet 96, 612-22 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Milner, J. D. et al. Early-onset lymphoproliferation and autoimmunity caused by germline STAT3 gain-of-function mutations. Blood 125, 591-9 (2015).
Bowles, N. E. et al. Exome analysis of a family with Wolff-Parkinson-White syndrome identifies a novel disease locus. Am J Med Genet A 167A, 2975-84 (2015).
Gonzaga-Jauregui, C. et al. Exome Sequence Analysis Suggests that Genetic Burden Contributes to Phenotypic Variability and Complex Neuropathy. Cell Rep 12, 1169-83 (2015).
Gonzaga-Jauregui, C. et al. Exome Sequence Analysis Suggests that Genetic Burden Contributes to Phenotypic Variability and Complex Neuropathy. Cell Rep 12, 1169-83 (2015).
Stuart, B. D. et al. Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening. Nat Genet 47, 512-7 (2015).
Stuart, B. D. et al. Exome sequencing links mutations in PARN and RTEL1 with familial pulmonary fibrosis and telomere shortening. Nat Genet 47, 512-7 (2015).
Fairfield, H. et al. Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders. Genome Res 25, 948-57 (2015).
Fairfield, H. et al. Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders. Genome Res 25, 948-57 (2015).
Fairfield, H. et al. Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders. Genome Res 25, 948-57 (2015).
Fairfield, H. et al. Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders. Genome Res 25, 948-57 (2015).
Fairfield, H. et al. Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders. Genome Res 25, 948-57 (2015).
Ng, B. G. et al. Expanding the Molecular and Clinical Phenotype of SSR4-CDG. Hum Mutat 36, 1048-51 (2015).
Ng, B. G. et al. Expanding the Molecular and Clinical Phenotype of SSR4-CDG. Hum Mutat 36, 1048-51 (2015).
Ng, B. G. et al. Expanding the Molecular and Clinical Phenotype of SSR4-CDG. Hum Mutat 36, 1048-51 (2015).

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