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2014

Xia, F. et al. De novo truncating mutations in AHDC1 in individuals with syndromic expressive language delay, hypotonia, and sleep apnea. Am J Hum Genet 94, 784-9 (2014).

Carvalho, C. M. B. et al. Dosage changes of a segment at 17p13.1 lead to intellectual disability and microcephaly as a result of complex genetic interaction of multiple genes. Am J Hum Genet 95, 565-78 (2014).

Yamamoto, S. et al. A drosophila genetic resource of mutants to study mechanisms underlying human genetic diseases. Cell 159, 200-214 (2014).

Yamamoto, S. et al. A drosophila genetic resource of mutants to study mechanisms underlying human genetic diseases. Cell 159, 200-214 (2014).

Yamamoto, S. et al. A drosophila genetic resource of mutants to study mechanisms underlying human genetic diseases. Cell 159, 200-214 (2014).

Yamamoto, S. et al. A drosophila genetic resource of mutants to study mechanisms underlying human genetic diseases. Cell 159, 200-214 (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).

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).

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).

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).

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

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).

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).

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).

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).

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).

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).

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).

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).

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

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