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SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome. Nat Genet 49, 238-248 (2017).
SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome. Nat Genet 49, 238-248 (2017).
SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome. Nat Genet 49, 238-248 (2017).
SMCHD1 mutations associated with a rare muscular dystrophy can also cause isolated arhinia and Bosma arhinia microphthalmia syndrome. Nat Genet 49, 238-248 (2017).
Survival beyond the perinatal period expands the phenotypes caused by mutations in GLE1. Am J Med Genet A 173, 3098-3103 (2017).
Survival beyond the perinatal period expands the phenotypes caused by mutations in GLE1. Am J Med Genet A 173, 3098-3103 (2017).
Survival beyond the perinatal period expands the phenotypes caused by mutations in GLE1. Am J Med Genet A 173, 3098-3103 (2017).
SVachra: a tool to identify genomic structural variation in mate pair sequencing data containing inward and outward facing reads. BMC Genomics 18, 691 (2017).
Unraveling genetic predisposition to familial or early onset gastric cancer using germline whole-exome sequencing. Eur J Hum Genet 25, 1246-1252 (2017).
Unraveling genetic predisposition to familial or early onset gastric cancer using germline whole-exome sequencing. Eur J Hum Genet 25, 1246-1252 (2017).
Unraveling genetic predisposition to familial or early onset gastric cancer using germline whole-exome sequencing. Eur J Hum Genet 25, 1246-1252 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Use of Exome Sequencing for Infants in Intensive Care Units: Ascertainment of Severe Single-Gene Disorders and Effect on Medical Management. JAMA Pediatr 171, e173438 (2017).
Whole-exome sequencing in the molecular diagnosis of individuals with congenital anomalies of the kidney and urinary tract and identification of a new causative gene. Genet Med 19, 412-420 (2017).
Whole-exome sequencing in the molecular diagnosis of individuals with congenital anomalies of the kidney and urinary tract and identification of a new causative gene. Genet Med 19, 412-420 (2017).
Whole-exome sequencing in the molecular diagnosis of individuals with congenital anomalies of the kidney and urinary tract and identification of a new causative gene. Genet Med 19, 412-420 (2017).
Whole-Exome Sequencing Reveals Mutations in a Clinically Unrecognizable Patient with Syndromic CAKUT: A Case Report. Mol Syndromol 8, 272-277 (2017).
ACOX2 deficiency: A disorder of bile acid synthesis with transaminase elevation, liver fibrosis, ataxia, and cognitive impairment. Proc Natl Acad Sci U S A 113, 11289-11293 (2016).
Aggressive tumor growth and clinical evolution in a patient with X-linked acro-gigantism syndrome. Endocrine 51, 236-44 (2016).
ALG1-CDG: Clinical and Molecular Characterization of 39 Unreported Patients. Hum Mutat 37, 653-60 (2016).
ALG1-CDG: Clinical and Molecular Characterization of 39 Unreported Patients. Hum Mutat 37, 653-60 (2016).
ALG1-CDG: Clinical and Molecular Characterization of 39 Unreported Patients. Hum Mutat 37, 653-60 (2016).
ALG1-CDG: Clinical and Molecular Characterization of 39 Unreported Patients. Hum Mutat 37, 653-60 (2016).
ALG1-CDG: Clinical and Molecular Characterization of 39 Unreported Patients. Hum Mutat 37, 653-60 (2016).
Assessment of estimated retinal atrophy progression in Stargardt macular dystrophy using spectral-domain optical coherence tomography. Br J Ophthalmol 100, 956-962 (2016).
Assessment of estimated retinal atrophy progression in Stargardt macular dystrophy using spectral-domain optical coherence tomography. Br J Ophthalmol 100, 956-962 (2016).
Assessment of estimated retinal atrophy progression in Stargardt macular dystrophy using spectral-domain optical coherence tomography. Br J Ophthalmol 100, 956-962 (2016).
Association Between Absolute Neutrophil Count and Variation at TCIRG1: The NHLBI Exome Sequencing Project. Genet Epidemiol 40, 470-4 (2016).
Association of MTOR Mutations With Developmental Brain Disorders, Including Megalencephaly, Focal Cortical Dysplasia, and Pigmentary Mosaicism. JAMA Neurol 73, 836-845 (2016).
Association of MTOR Mutations With Developmental Brain Disorders, Including Megalencephaly, Focal Cortical Dysplasia, and Pigmentary Mosaicism. JAMA Neurol 73, 836-845 (2016).
Association of MTOR Mutations With Developmental Brain Disorders, Including Megalencephaly, Focal Cortical Dysplasia, and Pigmentary Mosaicism. JAMA Neurol 73, 836-845 (2016).
Association of MTOR Mutations With Developmental Brain Disorders, Including Megalencephaly, Focal Cortical Dysplasia, and Pigmentary Mosaicism. JAMA Neurol 73, 836-845 (2016).
Association of MTOR Mutations With Developmental Brain Disorders, Including Megalencephaly, Focal Cortical Dysplasia, and Pigmentary Mosaicism. JAMA Neurol 73, 836-845 (2016).
Ataxia-Pancytopenia Syndrome Is Caused by Missense Mutations in SAMD9L. Am J Hum Genet 98, 1146-1158 (2016).
Ataxia-Pancytopenia Syndrome Is Caused by Missense Mutations in SAMD9L. Am J Hum Genet 98, 1146-1158 (2016).
Autosomal-Recessive Hearing Impairment Due to Rare Missense Variants within S1PR2. Am J Hum Genet 98, 331-8 (2016).
Autosomal-Recessive Hearing Impairment Due to Rare Missense Variants within S1PR2. Am J Hum Genet 98, 331-8 (2016).
Autosomal-Recessive Hearing Impairment Due to Rare Missense Variants within S1PR2. Am J Hum Genet 98, 331-8 (2016).
Autosomal-Recessive Hearing Impairment Due to Rare Missense Variants within S1PR2. Am J Hum Genet 98, 331-8 (2016).
Biallelic Mutations in Citron Kinase Link Mitotic Cytokinesis to Human Primary Microcephaly. Am J Hum Genet 99, 501-10 (2016).
Bi-allelic Mutations in PKD1L1 Are Associated with Laterality Defects in Humans. Am J Hum Genet 99, 886-893 (2016).
