Publications

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2012
Bamshad, M. J. et al. The Centers for Mendelian Genomics: a new large-scale initiative to identify the genes underlying rare Mendelian conditions. Am J Med Genet A 158A, 1523-5 (2012).
Cheung, Y. Him, Wang, G., Leal, S. M. & Wang, S. A fast and noise-resilient approach to detect rare-variant associations with deep sequencing data for complex disorders. Genet Epidemiol 36, 675-85 (2012).
Bernier, F. P. et al. Haploinsufficiency of SF3B4, a component of the pre-mRNA spliceosomal complex, causes Nager syndrome. Am J Hum Genet 90, 925-33 (2012).
Lindsay, M. E. et al. Loss-of-function mutations in TGFB2 cause a syndromic presentation of thoracic aortic aneurysm. Nat Genet 44, 922-7 (2012).
Lindsay, M. E. et al. Loss-of-function mutations in TGFB2 cause a syndromic presentation of thoracic aortic aneurysm. Nat Genet 44, 922-7 (2012).
Doyle, A. J. et al. Mutations in the TGF-β repressor SKI cause Shprintzen-Goldberg syndrome with aortic aneurysm. Nat Genet 44, 1249-54 (2012).
Doyle, A. J. et al. Mutations in the TGF-β repressor SKI cause Shprintzen-Goldberg syndrome with aortic aneurysm. Nat Genet 44, 1249-54 (2012).
Mechanic, L. E. et al. Next generation analytic tools for large scale genetic epidemiology studies of complex diseases. Genet Epidemiol 36, 22-35 (2012).
Mechanic, L. E. et al. Next generation analytic tools for large scale genetic epidemiology studies of complex diseases. Genet Epidemiol 36, 22-35 (2012).
Mechanic, L. E. et al. Next generation analytic tools for large scale genetic epidemiology studies of complex diseases. Genet Epidemiol 36, 22-35 (2012).
Lo, S. M. et al. Phenotype diversity in type 1 Gaucher disease: discovering the genetic basis of Gaucher disease/hematologic malignancy phenotype by individual genome analysis. Blood 119, 4731-40 (2012).
2013
Ashraf, S. et al. ADCK4 mutations promote steroid-resistant nephrotic syndrome through CoQ10 biosynthesis disruption. J Clin Invest 123, 5179-89 (2013).
Ashraf, S. et al. ADCK4 mutations promote steroid-resistant nephrotic syndrome through CoQ10 biosynthesis disruption. J Clin Invest 123, 5179-89 (2013).
Ashraf, S. et al. ADCK4 mutations promote steroid-resistant nephrotic syndrome through CoQ10 biosynthesis disruption. J Clin Invest 123, 5179-89 (2013).
Ashraf, S. et al. ADCK4 mutations promote steroid-resistant nephrotic syndrome through CoQ10 biosynthesis disruption. J Clin Invest 123, 5179-89 (2013).
Hjeij, R. et al. ARMC4 mutations cause primary ciliary dyskinesia with randomization of left/right body asymmetry. Am J Hum Genet 93, 357-67 (2013).
Yu, J. - H., Crouch, J., Jamal, S. M., Tabor, H. K. & Bamshad, M. J. Attitudes of African Americans toward return of results from exome and whole genome sequencing. Am J Med Genet A 161A, 1064-72 (2013).
Zaidi, S. et al. De novo mutations in histone-modifying genes in congenital heart disease. Nature 498, 220-3 (2013).
Zaidi, S. et al. De novo mutations in histone-modifying genes in congenital heart disease. Nature 498, 220-3 (2013).
Zaidi, S. et al. De novo mutations in histone-modifying genes in congenital heart disease. Nature 498, 220-3 (2013).
Zaidi, S. et al. De novo mutations in histone-modifying genes in congenital heart disease. Nature 498, 220-3 (2013).
Boone, P. M. et al. Deletions of recessive disease genes: CNV contribution to carrier states and disease-causing alleles. Genome Res 23, 1383-94 (2013).
Boone, P. M. et al. Deletions of recessive disease genes: CNV contribution to carrier states and disease-causing alleles. Genome Res 23, 1383-94 (2013).
Boone, P. M. et al. Incidental copy-number variants identified by routine genome testing in a clinical population. Genet Med 15, 45-54 (2013).
Boone, P. M. et al. Incidental copy-number variants identified by routine genome testing in a clinical population. Genet Med 15, 45-54 (2013).
Issa, P. Charbel et al. Macular telangiectasia type 2. Prog Retin Eye Res 34, 49-77 (2013).
Ng, B. G. et al. Mosaicism of the UDP-galactose transporter SLC35A2 causes a congenital disorder of glycosylation. Am J Hum Genet 92, 632-6 (2013).
Sanna-Cherchi, S. et al. Mutations in DSTYK and dominant urinary tract malformations. N Engl J Med 369, 621-9 (2013).
Sanna-Cherchi, S. et al. Mutations in DSTYK and dominant urinary tract malformations. N Engl J Med 369, 621-9 (2013).
Sanna-Cherchi, S. et al. Mutations in DSTYK and dominant urinary tract malformations. N Engl J Med 369, 621-9 (2013).
Sanna-Cherchi, S. et al. Mutations in DSTYK and dominant urinary tract malformations. N Engl J Med 369, 621-9 (2013).
Santos-Cortez, R. Lyn P. et al. Mutations in KARS, encoding lysyl-tRNA synthetase, cause autosomal-recessive nonsyndromic hearing impairment DFNB89. Am J Hum Genet 93, 132-40 (2013).
Marneros, A. G. et al. Mutations in KCTD1 cause scalp-ear-nipple syndrome. Am J Hum Genet 92, 621-6 (2013).
Radmanesh, F. et al. Mutations in LAMB1 cause cobblestone brain malformation without muscular or ocular abnormalities. Am J Hum Genet 92, 468-74 (2013).
Radmanesh, F. et al. Mutations in LAMB1 cause cobblestone brain malformation without muscular or ocular abnormalities. Am J Hum Genet 92, 468-74 (2013).
Gonzaga-Jauregui, C. et al. Mutations in VRK1 associated with complex motor and sensory axonal neuropathy plus microcephaly. JAMA Neurol 70, 1491-8 (2013).
Jenkinson, E. M. et al. Perrault syndrome is caused by recessive mutations in CLPP, encoding a mitochondrial ATP-dependent chambered protease. Am J Hum Genet 92, 605-13 (2013).
Jenkinson, E. M. et al. Perrault syndrome is caused by recessive mutations in CLPP, encoding a mitochondrial ATP-dependent chambered protease. Am J Hum Genet 92, 605-13 (2013).
Jenkinson, E. M. et al. Perrault syndrome is caused by recessive mutations in CLPP, encoding a mitochondrial ATP-dependent chambered protease. Am J Hum Genet 92, 605-13 (2013).
Jamal, S. M. et al. Practices and policies of clinical exome sequencing providers: analysis and implications. Am J Med Genet A 161A, 935-50 (2013).
Jamal, S. M. et al. Practices and policies of clinical exome sequencing providers: analysis and implications. Am J Med Genet A 161A, 935-50 (2013).
Bilguvar, K. et al. Recessive loss of function of the neuronal ubiquitin hydrolase UCHL1 leads to early-onset progressive neurodegeneration. Proc Natl Acad Sci U S A 110, 3489-94 (2013).
Bilguvar, K. et al. Recessive loss of function of the neuronal ubiquitin hydrolase UCHL1 leads to early-onset progressive neurodegeneration. Proc Natl Acad Sci U S A 110, 3489-94 (2013).
Bilguvar, K. et al. Recessive loss of function of the neuronal ubiquitin hydrolase UCHL1 leads to early-onset progressive neurodegeneration. Proc Natl Acad Sci U S A 110, 3489-94 (2013).
Lemaire, M. et al. Recessive mutations in DGKE cause atypical hemolytic-uremic syndrome. Nat Genet 45, 531-6 (2013).
Lemaire, M. et al. Recessive mutations in DGKE cause atypical hemolytic-uremic syndrome. Nat Genet 45, 531-6 (2013).
Guo, D. - C. et al. Recurrent gain-of-function mutation in PRKG1 causes thoracic aortic aneurysms and acute aortic dissections. Am J Hum Genet 93, 398-404 (2013).
Guo, D. - C. et al. Recurrent gain-of-function mutation in PRKG1 causes thoracic aortic aneurysms and acute aortic dissections. Am J Hum Genet 93, 398-404 (2013).
Guo, D. - C. et al. Recurrent gain-of-function mutation in PRKG1 causes thoracic aortic aneurysms and acute aortic dissections. Am J Hum Genet 93, 398-404 (2013).
Cheung, Y. Him et al. A recurrent PDGFRB mutation causes familial infantile myofibromatosis. Am J Hum Genet 92, 996-1000 (2013).

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