Publications

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2015
Beck, T. F. et al. FBN1 contributing to familial congenital diaphragmatic hernia. Am J Med Genet A 167A, 831-6 (2015).
Spier, I. et al. Frequency and phenotypic spectrum of germline mutations in POLE and seven other polymerase genes in 266 patients with colorectal adenomas and carcinomas. Int J Cancer 137, 320-31 (2015).
Spier, I. et al. Frequency and phenotypic spectrum of germline mutations in POLE and seven other polymerase genes in 266 patients with colorectal adenomas and carcinomas. Int J Cancer 137, 320-31 (2015).
Spier, I. et al. Frequency and phenotypic spectrum of germline mutations in POLE and seven other polymerase genes in 266 patients with colorectal adenomas and carcinomas. Int J Cancer 137, 320-31 (2015).
Roosing, S. et al. Functional genome-wide siRNA screen identifies KIAA0586 as mutated in Joubert syndrome. Elife 4, e06602 (2015).
Roosing, S. et al. Functional genome-wide siRNA screen identifies KIAA0586 as mutated in Joubert syndrome. Elife 4, e06602 (2015).
Roosing, S. et al. Functional genome-wide siRNA screen identifies KIAA0586 as mutated in Joubert syndrome. Elife 4, e06602 (2015).
Roosing, S. et al. Functional genome-wide siRNA screen identifies KIAA0586 as mutated in Joubert syndrome. Elife 4, e06602 (2015).
Roosing, S. et al. Functional genome-wide siRNA screen identifies KIAA0586 as mutated in Joubert syndrome. Elife 4, e06602 (2015).
Roosing, S. et al. Functional genome-wide siRNA screen identifies KIAA0586 as mutated in Joubert syndrome. Elife 4, e06602 (2015).
Roosing, S. et al. Functional genome-wide siRNA screen identifies KIAA0586 as mutated in Joubert syndrome. Elife 4, e06602 (2015).
Sobreira, N., Schiettecatte, F., Valle, D. & Hamosh, A. GeneMatcher: a matching tool for connecting investigators with an interest in the same gene. Hum Mutat 36, 928-30 (2015).
Sobreira, N., Schiettecatte, F., Valle, D. & Hamosh, A. GeneMatcher: a matching tool for connecting investigators with an interest in the same gene. Hum Mutat 36, 928-30 (2015).
Au, P. Y. Billie et al. GeneMatcher aids in the identification of a new malformation syndrome with intellectual disability, unique facial dysmorphisms, and skeletal and connective tissue abnormalities caused by de novo variants in HNRNPK. Hum Mutat 36, 1009-1014 (2015).
Au, P. Y. Billie et al. GeneMatcher aids in the identification of a new malformation syndrome with intellectual disability, unique facial dysmorphisms, and skeletal and connective tissue abnormalities caused by de novo variants in HNRNPK. Hum Mutat 36, 1009-1014 (2015).
Karaca, E. et al. Genes that Affect Brain Structure and Function Identified by Rare Variant Analyses of Mendelian Neurologic Disease. Neuron 88, 499-513 (2015).
Karaca, E. et al. Genes that Affect Brain Structure and Function Identified by Rare Variant Analyses of Mendelian Neurologic Disease. Neuron 88, 499-513 (2015).
Chong, J. X. et al. The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities. Am J Hum Genet 97, 199-215 (2015).
Chong, J. X. et al. The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities. Am J Hum Genet 97, 199-215 (2015).
Chong, J. X. et al. The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities. Am J Hum Genet 97, 199-215 (2015).
Chong, J. X. et al. The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities. Am J Hum Genet 97, 199-215 (2015).
Chong, J. X. et al. The Genetic Basis of Mendelian Phenotypes: Discoveries, Challenges, and Opportunities. Am J Hum Genet 97, 199-215 (2015).
Lodish, M. B. et al. Germline PRKACA amplification causes variable phenotypes that may depend on the extent of the genomic defect: molecular mechanisms and clinical presentations. Eur J Endocrinol 172, 803-11 (2015).
Lodish, M. B. et al. Germline PRKACA amplification causes variable phenotypes that may depend on the extent of the genomic defect: molecular mechanisms and clinical presentations. Eur J Endocrinol 172, 803-11 (2015).
Lodish, M. B. et al. Germline PRKACA amplification causes variable phenotypes that may depend on the extent of the genomic defect: molecular mechanisms and clinical presentations. Eur J Endocrinol 172, 803-11 (2015).
Yuan, B. et al. Global transcriptional disturbances underlie Cornelia de Lange syndrome and related phenotypes. J Clin Invest 125, 636-51 (2015).
Yuan, B. et al. Global transcriptional disturbances underlie Cornelia de Lange syndrome and related phenotypes. J Clin Invest 125, 636-51 (2015).
Ansar, M. et al. A homozygous missense variant in type I keratin KRT25 causes autosomal recessive woolly hair. J Med Genet 52, 676-80 (2015).
Ansar, M. et al. A homozygous missense variant in type I keratin KRT25 causes autosomal recessive woolly hair. J Med Genet 52, 676-80 (2015).
Ansar, M. et al. A homozygous missense variant in type I keratin KRT25 causes autosomal recessive woolly hair. J Med Genet 52, 676-80 (2015).
Ansar, M. et al. A homozygous missense variant in type I keratin KRT25 causes autosomal recessive woolly hair. J Med Genet 52, 676-80 (2015).
Shahzad, M. et al. Identification and functional characterization of natural human melanocortin 1 receptor mutant alleles in Pakistani population. Pigment Cell Melanoma Res 28, 730-5 (2015).
Shahzad, M. et al. Identification and functional characterization of natural human melanocortin 1 receptor mutant alleles in Pakistani population. Pigment Cell Melanoma Res 28, 730-5 (2015).
Shahzad, M. et al. Identification and functional characterization of natural human melanocortin 1 receptor mutant alleles in Pakistani population. Pigment Cell Melanoma Res 28, 730-5 (2015).
Shahzad, M. et al. Identification and functional characterization of natural human melanocortin 1 receptor mutant alleles in Pakistani population. Pigment Cell Melanoma Res 28, 730-5 (2015).
Guemez-Gamboa, A. et al. Inactivating mutations in MFSD2A, required for omega-3 fatty acid transport in brain, cause a lethal microcephaly syndrome. Nat Genet 47, 809-13 (2015).
Guemez-Gamboa, A. et al. Inactivating mutations in MFSD2A, required for omega-3 fatty acid transport in brain, cause a lethal microcephaly syndrome. Nat Genet 47, 809-13 (2015).
Guemez-Gamboa, A. et al. Inactivating mutations in MFSD2A, required for omega-3 fatty acid transport in brain, cause a lethal microcephaly syndrome. Nat Genet 47, 809-13 (2015).
Bachmann-Gagescu, R. et al. Joubert syndrome: a model for untangling recessive disorders with extreme genetic heterogeneity. J Med Genet 52, 514-22 (2015).
Bachmann-Gagescu, R. et al. KIAA0586 is Mutated in Joubert Syndrome. Hum Mutat 36, 831-5 (2015).
Bachmann-Gagescu, R. et al. KIAA0586 is Mutated in Joubert Syndrome. Hum Mutat 36, 831-5 (2015).
Philippakis, A. A. et al. The Matchmaker Exchange: a platform for rare disease gene discovery. Hum Mutat 36, 915-21 (2015).
Philippakis, A. A. et al. The Matchmaker Exchange: a platform for rare disease gene discovery. Hum Mutat 36, 915-21 (2015).
Philippakis, A. A. et al. The Matchmaker Exchange: a platform for rare disease gene discovery. Hum Mutat 36, 915-21 (2015).
Buske, O. J. et al. The Matchmaker Exchange API: automating patient matching through the exchange of structured phenotypic and genotypic profiles. Hum Mutat 36, 922-7 (2015).
Buske, O. J. et al. The Matchmaker Exchange API: automating patient matching through the exchange of structured phenotypic and genotypic profiles. Hum Mutat 36, 922-7 (2015).
Salih, M. A. et al. Mutation in GM2A Leads to a Progressive Chorea-dementia Syndrome. Tremor Other Hyperkinet Mov (N Y) 5, 306 (2015).
Salih, M. A. et al. Mutation in GM2A Leads to a Progressive Chorea-dementia Syndrome. Tremor Other Hyperkinet Mov (N Y) 5, 306 (2015).
Ansar, M. et al. Mutation of ATF6 causes autosomal recessive achromatopsia. Hum Genet 134, 941-50 (2015).
Ansar, M. et al. Mutation of ATF6 causes autosomal recessive achromatopsia. Hum Genet 134, 941-50 (2015).

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