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2014

Novarino, G. et al. Exome sequencing links corticospinal motor neuron disease to common neurodegenerative disorders. Science 343, 506-511 (2014).

Novarino, G. et al. Exome sequencing links corticospinal motor neuron disease to common neurodegenerative disorders. Science 343, 506-511 (2014).

Novarino, G. et al. Exome sequencing links corticospinal motor neuron disease to common neurodegenerative disorders. Science 343, 506-511 (2014).

Novarino, G. et al. Exome sequencing links corticospinal motor neuron disease to common neurodegenerative disorders. Science 343, 506-511 (2014).

Okamoto, Y. et al. Exonic duplication CNV of NDRG1 associated with autosomal-recessive HMSN-Lom/CMT4D. Genet Med 16, 386-394 (2014).

Okamoto, Y. et al. Exonic duplication CNV of NDRG1 associated with autosomal-recessive HMSN-Lom/CMT4D. Genet Med 16, 386-394 (2014).

Sim, J. C. H. et al. Expanding the phenotypic spectrum of ARID1B-mediated disorders and identification of altered cell-cycle dynamics due to ARID1B haploinsufficiency. Orphanet J Rare Dis 9, 43 (2014).

Sim, J. C. H. et al. Expanding the phenotypic spectrum of ARID1B-mediated disorders and identification of altered cell-cycle dynamics due to ARID1B haploinsufficiency. Orphanet J Rare Dis 9, 43 (2014).

Sim, J. C. H. et al. Expanding the phenotypic spectrum of ARID1B-mediated disorders and identification of altered cell-cycle dynamics due to ARID1B haploinsufficiency. Orphanet J Rare Dis 9, 43 (2014).

Keramati, A. R. et al. A form of the metabolic syndrome associated with mutations in DYRK1B. N Engl J Med 370, 1909-1919 (2014).

Keramati, A. R. et al. A form of the metabolic syndrome associated with mutations in DYRK1B. N Engl J Med 370, 1909-1919 (2014).

Keramati, A. R. et al. A form of the metabolic syndrome associated with mutations in DYRK1B. N Engl J Med 370, 1909-1919 (2014).

Campeau, P. M. et al. The genetic basis of DOORS syndrome: an exome-sequencing study. Lancet Neurol 13, 44-58 (2014).

Campeau, P. M. et al. The genetic basis of DOORS syndrome: an exome-sequencing study. Lancet Neurol 13, 44-58 (2014).

Campeau, P. M. et al. The genetic basis of DOORS syndrome: an exome-sequencing study. Lancet Neurol 13, 44-58 (2014).

Campeau, P. M. et al. The genetic basis of DOORS syndrome: an exome-sequencing study. Lancet Neurol 13, 44-58 (2014).

de Kock, L. et al. Germ-line and somatic DICER1 mutations in pineoblastoma. Acta Neuropathol 128, 583-95 (2014).

de Kock, L. et al. Germ-line and somatic DICER1 mutations in pineoblastoma. Acta Neuropathol 128, 583-95 (2014).

de Kock, L. et al. Germ-line and somatic DICER1 mutations in pineoblastoma. Acta Neuropathol 128, 583-95 (2014).

Trivellin, G. et al. Gigantism and acromegaly due to Xq26 microduplications and GPR101 mutation. N Engl J Med 371, 2363-74 (2014).

Trivellin, G. et al. Gigantism and acromegaly due to Xq26 microduplications and GPR101 mutation. N Engl J Med 371, 2363-74 (2014).

Trivellin, G. et al. Gigantism and acromegaly due to Xq26 microduplications and GPR101 mutation. N Engl J Med 371, 2363-74 (2014).

Wangler, M. F. et al. Heterozygous de novo and inherited mutations in the smooth muscle actin (ACTG2) gene underlie megacystis-microcolon-intestinal hypoperistalsis syndrome. PLoS Genet 10, e1004258 (2014).

Wangler, M. F. et al. Heterozygous de novo and inherited mutations in the smooth muscle actin (ACTG2) gene underlie megacystis-microcolon-intestinal hypoperistalsis syndrome. PLoS Genet 10, e1004258 (2014).

Karaca, E. et al. Human CLP1 mutations alter tRNA biogenesis, affecting both peripheral and central nervous system function. Cell 157, 636-50 (2014).

Karaca, E. et al. Human CLP1 mutations alter tRNA biogenesis, affecting both peripheral and central nervous system function. Cell 157, 636-50 (2014).

Karaca, E. et al. Human CLP1 mutations alter tRNA biogenesis, affecting both peripheral and central nervous system function. Cell 157, 636-50 (2014).

Glessner, J. T. et al. Increased frequency of de novo copy number variants in congenital heart disease by integrative analysis of single nucleotide polymorphism array and exome sequence data. Circ Res 115, 884-896 (2014).

Vilarinho, S. et al. Individual exome analysis in diagnosis and management of paediatric liver failure of indeterminate aetiology. J Hepatol 61, 1056-63 (2014).

Vilarinho, S. et al. Individual exome analysis in diagnosis and management of paediatric liver failure of indeterminate aetiology. J Hepatol 61, 1056-63 (2014).

Vilarinho, S. et al. Individual exome analysis in diagnosis and management of paediatric liver failure of indeterminate aetiology. J Hepatol 61, 1056-63 (2014).

Bergner, A. L. et al. Informed consent for exome sequencing research in families with genetic disease: the emerging issue of incidental findings. Am J Med Genet A 164A, 2745-52 (2014).

Shapiro, A. J. et al. Laterality defects other than situs inversus totalis in primary ciliary dyskinesia: insights into situs ambiguus and heterotaxy. Chest 146, 1176-1186 (2014).

Reid, J. G. et al. Launching genomics into the cloud: deployment of Mercury, a next generation sequence analysis pipeline. BMC Bioinformatics 15, 30 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Kaiser, F. J. et al. Loss-of-function HDAC8 mutations cause a phenotypic spectrum of Cornelia de Lange syndrome-like features, ocular hypertelorism, large fontanelle and X-linked inheritance. Hum Mol Genet 23, 2888-900 (2014).

Shalev, S. A. et al. Microcephaly, epilepsy, and neonatal diabetes due to compound heterozygous mutations in IER3IP1: insights into the natural history of a rare disorder. Pediatr Diabetes 15, 252-6 (2014).

Yang, Y. et al. Molecular findings among patients referred for clinical whole-exome sequencing. JAMA 312, 1870-9 (2014).

Rainger, J. et al. Monoallelic and biallelic mutations in MAB21L2 cause a spectrum of major eye malformations. Am J Hum Genet 94, 915-23 (2014).

Rainger, J. et al. Monoallelic and biallelic mutations in MAB21L2 cause a spectrum of major eye malformations. Am J Hum Genet 94, 915-23 (2014).

Rainger, J. et al. Monoallelic and biallelic mutations in MAB21L2 cause a spectrum of major eye malformations. Am J Hum Genet 94, 915-23 (2014).

Lim, Y. H. et al. Multilineage somatic activating mutations in HRAS and NRAS cause mosaic cutaneous and skeletal lesions, elevated FGF23 and hypophosphatemia. Hum Mol Genet 23, 397-407 (2014).

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