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Start Over Author "Beaudet, Arthur L" Journal american journal of human genetics
17 results on '"Beaudet, Arthur L"'

1. Bi-allelic Variants in TONSL Cause SPONASTRIME Dysplasia and a Spectrum of Skeletal Dysplasia Phenotypes

Author

Burrage, Lindsay C, Reynolds, John J, Baratang, Nissan Vida, Phillips, Jennifer B, Wegner, Jeremy, McFarquhar, Ashley, Higgs, Martin R, Christiansen, Audrey E, Lanza, Denise G, Seavitt, John R, Jain, Mahim, Li, Xiaohui, Parry, David A, Raman, Vandana, Chitayat, David, Chinn, Ivan K, Bertuch, Alison A, Karaviti, Lefkothea, Schlesinger, Alan E, Earl, Dawn, Bamshad, Michael, Savarirayan, Ravi, Doddapaneni, Harsha, Muzny, Donna, Jhangiani, Shalini N, Eng, Christine M, Gibbs, Richard A, Bi, Weimin, Emrick, Lisa, Rosenfeld, Jill A, Postlethwait, John, Westerfield, Monte, Dickinson, Mary E, Beaudet, Arthur L, Ranza, Emmanuelle, Huber, Celine, Cormier-Daire, Valérie, Shen, Wei, Mao, Rong, Heaney, Jason D, Orange, Jordan S, Genomics, University of Washington Center for Mendelian, Network, Undiagnosed Diseases, Adams, David R, Aday, Aaron, Alejandro, Mercedes E, Allard, Patrick, Ashley, Euan A, Azamian, Mahshid S, Bacino, Carlos A, Baker, Eva, Balasubramanyam, Ashok, Barseghyan, Hayk, Batzli, Gabriel F, Beggs, Alan H, Behnam, Babak, Bellen, Hugo J, Bernstein, Jonathan A, Berry, Gerard T, Bican, Anna, Bick, David P, Birch, Camille L, Bonner, Devon, Boone, Braden E, Bostwick, Bret L, Briere, Lauren C, Brokamp, Elly, Brown, Donna M, Brush, Matthew, Burke, Elizabeth A, Butte, Manish J, Chen, Shan, Clark, Gary D, Coakley, Terra R, Cogan, Joy D, Colley, Heather A, Cooper, Cynthia M, Cope, Heidi, Craigen, William J, D’Souza, Precilla, Davids, Mariska, Davidson, Jean M, Dayal, Jyoti G, Dell’Angelica, Esteban C, Dhar, Shweta U, Dipple, Katrina M, Donnell-Fink, Laurel A, Dorrani, Naghmeh, Dorset, Daniel C, Douine, Emilie D, Draper, David D, Dries, Annika M, Duncan, Laura, Eckstein, David J, Emrick, Lisa T, Enns, Gregory M, Eskin, Ascia, and Esteves, Cecilia

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Rare Diseases, Clinical Research, Congenital Structural Anomalies, Pediatric, Aetiology, 2.1 Biological and endogenous factors, Adolescent, Adult, Alleles, Animals, Cells, Cultured, Child, Child, Preschool, Chromosomal Instability, DNA Damage, Female, Fibroblasts, Genetic Association Studies, Genetic Variation, Humans, Mice, Mice, Knockout, Musculoskeletal Abnormalities, NF-kappa B, Osteochondrodysplasias, Exome Sequencing, Young Adult, Zebrafish, University of Washington Center for Mendelian Genomics, Undiagnosed Diseases Network, DNA repair, DNA replication, SPONASTRIME dysplasia, TONSL, exome sequencing, skeletal dysplasia, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

SPONASTRIME dysplasia is an autosomal-recessive spondyloepimetaphyseal dysplasia characterized by spine (spondylar) abnormalities, midface hypoplasia with a depressed nasal bridge, metaphyseal striations, and disproportionate short stature. Scoliosis, coxa vara, childhood cataracts, short dental roots, and hypogammaglobulinemia have also been reported in this disorder. Although an autosomal-recessive inheritance pattern has been hypothesized, pathogenic variants in a specific gene have not been discovered in individuals with SPONASTRIME dysplasia. Here, we identified bi-allelic variants in TONSL, which encodes the Tonsoku-like DNA repair protein, in nine subjects (from eight families) with SPONASTRIME dysplasia, and four subjects (from three families) with short stature of varied severity and spondylometaphyseal dysplasia with or without immunologic and hematologic abnormalities, but no definitive metaphyseal striations at diagnosis. The finding of early embryonic lethality in a Tonsl-/- murine model and the discovery of reduced length, spinal abnormalities, reduced numbers of neutrophils, and early lethality in a tonsl-/- zebrafish model both support the hypomorphic nature of the identified TONSL variants. Moreover, functional studies revealed increased amounts of spontaneous replication fork stalling and chromosomal aberrations, as well as fewer camptothecin (CPT)-induced RAD51 foci in subject-derived cell lines. Importantly, these cellular defects were rescued upon re-expression of wild-type (WT) TONSL; this rescue is consistent with the hypothesis that hypomorphic TONSL variants are pathogenic. Overall, our studies in humans, mice, zebrafish, and subject-derived cell lines confirm that pathogenic variants in TONSL impair DNA replication and homologous recombination-dependent repair processes, and they lead to a spectrum of skeletal dysplasia phenotypes with numerous extra-skeletal manifestations.

Published
2019

4. Genetics of Angelman syndrome

Author

Jiang, Yong-hui, Lev-Lehman, Efrat, Bressler, Jan, Tsai, Ting-Fen, and Beaudet, Arthur L.

Subjects
Genetic disorders -- Research, Ubiquitin -- Physiological aspects, Prader-Willi syndrome -- Genetic aspects, Biological sciences
Abstract

Angelman syndrome (AS), a neurologic disorder involving severe mental retardation, in recent years has come to be much better understood, starting with the disease's being identified as a ubiquitin ligase gene and demonstration of the brain-specific imprinting for the gene. This is the first clear case of a single-gene disorder involving the ubiquitination pathway in humans. Significant features of the AS and Prader-Willi syndrome (PWS) region of human chromosome 15q11-q13 are shown.

Published
1999

5. Making genomic medicine a reality

Author

Beaudet, Arthur L.

Subjects
Medicine -- Genetic aspects, Genetic research -- History, Hemochromatosis -- Genetic aspects, Population genetics -- Ethical aspects, Genetic disorders -- Diagnosis, Mutation (Biology) -- Health aspects, Heredity, Human -- Health aspects, Pharmacogenetics -- Usage, Phenylketonuria -- Care and treatment, Alzheimer's disease -- Genetic aspects, Diabetes in youth -- Genetic aspects, Colorectal cancer -- Genetic aspects, Chromosome mapping -- Usage, Polyposis, Familial -- Genetic aspects, Geneticists -- Speeches, lectures and essays, Genetic counseling -- Social aspects, Genetic screening -- Social aspects, Hypertension -- Genetic aspects, Heart diseases -- Genetic aspects, Biological sciences, American Society of Human Genetics -- Social policy
Abstract

Having genetic knowledge used to advance the practice of medicine is a laudable goal, according to Arthur L. Beaudet, president of the American Society of Human Genetics. Many advances may come to medicine through genetics soon. The use of genotyping in medicine would not involve new principles, but could follow the model of newborn screening for PKU. Hemochromatosis presents an extraordinary opportunity for population-based screening to save lives and there are major opportunities related to cancer and heart/circulatory diseases. Risks and fears connected to genetic testing cannot be ignored. Dilemmas exist for geneticists in population-based genotyping, in prenatal genetics, and in greater use of family-based genotyping for autosomal dominant disorders. The history of genetics is reviewed and the ways in which complex traits fit into futuristic genomic medicine are considered.

Published
1999

10. Validation Studies for Single Circulating Trophoblast Genetic Testing as a Form of Noninvasive Prenatal Diagnosis.

Author

Vossaert, Liesbeth, Wang, Qun, Salman, Roseen, McCombs, Anne K., Patel, Vipulkumar, Qu, Chunjing, Mancini, Michael A., Edwards, Dean P., Malovannaya, Anna, Liu, Pengfei, Shaw, Chad A., Levy, Brynn, Wapner, Ronald J., Bi, Weimin, Breman, Amy M., Van den Veyver, Ignatia B., and Beaudet, Arthur L.

Subjects
*NONINVASIVE diagnostic tests, *CHORIONIC villus sampling, *PRENATAL diagnosis, *TROPHOBLAST, *GENETIC testing, *CELL phone systems
Abstract

It has long been appreciated that genetic analysis of fetal or trophoblast cells in maternal blood could revolutionize prenatal diagnosis. We implemented a protocol for single circulating trophoblast (SCT) testing using positive selection by magnetic-activated cell sorting and single-cell low-coverage whole-genome sequencing to detect fetal aneuploidies and copy-number variants (CNVs) at ∼1 Mb resolution. In 95 validation cases, we identified on average 0.20 putative trophoblasts/mL, of which 55% were of high quality and scorable for both aneuploidy and CNVs. We emphasize the importance of analyzing individual cells because some cells are apoptotic, in S-phase, or otherwise of poor quality. When two or more high-quality trophoblast cells were available for singleton pregnancies, there was complete concordance between all trophoblasts unless there was evidence of confined placental mosaicism. SCT results were highly concordant with available clinical data from chorionic villus sampling (CVS) or amniocentesis procedures. Although determining the exact sensitivity and specificity will require more data, this study further supports the potential for SCT testing to become a diagnostic prenatal test. [ABSTRACT FROM AUTHOR]

Published
2019
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11. Diagnostic Utility of Genome-wide DNA Methylation Testing in Genetically Unsolved Individuals with Suspected Hereditary Conditions.

Author

Aref-Eshghi, Erfan, Bend, Eric G., Colaiacovo, Samantha, Caudle, Michelle, Chakrabarti, Rana, Napier, Melanie, Brick, Lauren, Brady, Lauren, Carere, Deanna Alexis, Levy, Michael A., Kerkhof, Jennifer, Stuart, Alan, Saleh, Maha, Beaudet, Arthur L., Li, Chumei, Kozenko, Maryia, Karp, Natalya, Prasad, Chitra, Siu, Victoria Mok, and Tarnopolsky, Mark A.

Subjects
*DNA, *DNA methylation, *DNA copy number variations, *TRINUCLEOTIDE repeats, *DNA analysis, *GENETIC testing, *BLOOD testing
Abstract

Conventional genetic testing of individuals with neurodevelopmental presentations and congenital anomalies (ND/CAs), i.e., the analysis of sequence and copy number variants, leaves a substantial proportion of them unexplained. Some of these cases have been shown to result from DNA methylation defects at a single locus (epi-variants), while others can exhibit syndrome-specific DNA methylation changes across multiple loci (epi-signatures). Here, we investigate the clinical diagnostic utility of genome-wide DNA methylation analysis of peripheral blood in unresolved ND/CAs. We generate a computational model enabling concurrent detection of 14 syndromes using DNA methylation data with full accuracy. We demonstrate the ability of this model in resolving 67 individuals with uncertain clinical diagnoses, some of whom had variants of unknown clinical significance (VUS) in the related genes. We show that the provisional diagnoses can be ruled out in many of the case subjects, some of whom are shown by our model to have other diseases initially not considered. By applying this model to a cohort of 965 ND/CA-affected subjects without a previous diagnostic assumption and a separate assessment of rare epi-variants in this cohort, we identify 15 case subjects with syndromic Mendelian disorders, 12 case subjects with imprinting and trinucleotide repeat expansion disorders, as well as 106 case subjects with rare epi-variants, a portion of which involved genes clinically or functionally linked to the subjects' phenotypes. This study demonstrates that genomic DNA methylation analysis can facilitate the molecular diagnosis of unresolved clinical cases and highlights the potential value of epigenomic testing in the routine clinical assessment of ND/CAs. [ABSTRACT FROM AUTHOR]

Published
2019
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12. Loss-of-Function Variants in MYLK Cause Recessive Megacystis Microcolon Intestinal Hypoperistalsis Syndrome.

Author

Halim, Danny, Brosens, Erwin, Muller, Françoise, Wangler, Michael F., Beaudet, Arthur L., Lupski, James R., Akdemir, Zeynep H. Coban, Doukas, Michael, Stoop, Hans J., de Graaf, Bianca M., Brouwer, Rutger W.W., van Ijcken, Wilfred F.J., Oury, Jean-François, Rosenblatt, Jonathan, Burns, Alan J., Tibboel, Dick, Hofstra, Robert M.W., and Alves, Maria M.

Subjects
*HOLOCYSTITES, *CONGENITAL disorders, *HOMOZYGOSITY, *NUCLEOTIDE sequencing, *MYOSIN light chain kinase
Abstract

Megacystis microcolon intestinal hypoperistalsis syndrome (MMIHS) is a congenital disorder characterized by loss of smooth muscle contraction in the bladder and intestine. To date, three genes are known to be involved in MMIHS pathogenesis: ACTG2 , MYH11 , and LMOD1 . However, for approximately 10% of affected individuals, the genetic cause of the disease is unknown, suggesting that other loci are most likely involved. Here, we report on three MMIHS-affected subjects from two consanguineous families with no variants in the known MMIHS-associated genes. By performing homozygosity mapping and whole-exome sequencing, we found homozygous variants in myosin light chain kinase ( MYLK ) in both families. We identified a 7 bp duplication (c.3838_3844dupGAAAGCG [p.Glu1282_Glyfs ∗ 51]) in one family and a putative splice-site variant (c.3985+5C>A) in the other. Expression studies and splicing assays indicated that both variants affect normal MYLK expression. Because MYLK encodes an important kinase required for myosin activation and subsequent interaction with actin filaments, it is likely that in its absence, contraction of smooth muscle cells is impaired. The existence of a conditional- Mylk -knockout mouse model with severe gut dysmotility and abnormal function of the bladder supports the involvement of this gene in MMIHS pathogenesis. In aggregate, our findings implicate MYLK as a gene involved in the recessive form of MMIHS, confirming that this disease of the visceral organs is heterogeneous with a myopathic origin. [ABSTRACT FROM AUTHOR]

Published
2017
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13. De Novo Truncating Mutations in AHDC1 in Individuals with Syndromic Expressive Language Delay, Hypotonia, and Sleep Apnea.

Author

Xia, Fan, Bainbridge, Matthew?N., Tan, Tiong?Yang, Wangler, Michael?F., Scheuerle, Angela?E., Zackai, Elaine?H., Harr, Margaret?H., Sutton, V.?Reid, Nalam, Roopa?L., Zhu, Wenmiao, Nash, Margot, Ryan, Monique?M., Yaplito-Lee, Joy, Hunter, Jill?V., Deardorff, Matthew?A., Penney, Samantha?J., Beaudet, Arthur?L., Plon, Sharon?E., Boerwinkle, Eric?A., and Lupski, James?R.

Subjects
*GENETIC mutation, *SLEEP apnea syndromes, *CLINICAL trials, *NUCLEOTIDE sequencing, *LANGUAGE disorders, *NEUROLOGICAL disorders
Abstract

Clinical whole-exome sequencing (WES) for identification of mutations leading to Mendelian disease has been offered to the medical community since 2011. Clinically undiagnosed neurological disorders are the most frequent basis for test referral, and currently, approximately 25% of such cases are diagnosed at the molecular level. To date, there are approximately 4,000 “known” disease-associated loci, and many are associated with striking dysmorphic features, making genotype-phenotype correlations relatively straightforward. A significant fraction of cases, however, lack characteristic dysmorphism or clinical pathognomonic traits and are dependent upon molecular tests for definitive diagnoses. Further, many molecular diagnoses are guided by recent gene-disease association discoveries. Hence, there is a critical interplay between clinical testing and research leading to gene-disease association discovery. Here, we describe four probands, all of whom presented with hypotonia, intellectual disability, global developmental delay, and mildly dysmorphic facial features. Three of the four also had sleep apnea. Each was a simplex case without a remarkable family history. Using WES, we identified AHDC1 de novo truncating mutations that most likely cause this genetic syndrome. [Copyright &y& Elsevier]

Published
2014
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14. Genetics of Angelman Syndrome.

Author

Yong-hui Jiang, Lev-Lehman, Efrat, Bressler, Jan, Ting-Fen Tsai, and Beaudet, Arthur L.

Subjects
*ANGELMAN syndrome, *GENETIC disorders
Abstract

Examines the disease gene of Angelman syndrome (AS). Identification of brain-specific ubiquitin ligase gene; Epidemiology of the disorder; Mechanisms of phenotypic features of AS.

Published
1999
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15. De Novo GMNN Mutations Cause Autosomal-Dominant Primordial Dwarfism Associated with Meier-Gorlin Syndrome.

Author

Burrage LC, Charng WL, Eldomery MK, Willer JR, Davis EE, Lugtenberg D, Zhu W, Leduc MS, Akdemir ZC, Azamian M, Zapata G, Hernandez PP, Schoots J, de Munnik SA, Roepman R, Pearring JN, Jhangiani S, Katsanis N, Vissers LE, Brunner HG, Beaudet AL, Rosenfeld JA, Muzny DM, Gibbs RA, Eng CM, Xia F, Lalani SR, Lupski JR, Bongers EM, and Yang Y

Subjects
Adolescent, Amino Acid Sequence, Base Sequence, Cell Cycle genetics, Child, Preschool, Congenital Microtia metabolism, Dwarfism metabolism, Dwarfism pathology, Exons, Female, Geminin metabolism, Gene Expression, Genes, Dominant, Growth Disorders metabolism, Heterozygote, High-Throughput Nucleotide Sequencing, Humans, Inheritance Patterns, Male, Micrognathism metabolism, Molecular Sequence Data, Patella metabolism, Pedigree, Protein Stability, Proteolysis, RNA Splicing, Sequence Alignment, Congenital Microtia genetics, Dwarfism genetics, Geminin genetics, Growth Disorders genetics, Micrognathism genetics, Mutation, Patella abnormalities
Abstract

Meier-Gorlin syndrome (MGS) is a genetically heterogeneous primordial dwarfism syndrome known to be caused by biallelic loss-of-function mutations in one of five genes encoding pre-replication complex proteins: ORC1, ORC4, ORC6, CDT1, and CDC6. Mutations in these genes cause disruption of the origin of DNA replication initiation. To date, only an autosomal-recessive inheritance pattern has been described in individuals with this disorder, with a molecular etiology established in about three-fourths of cases. Here, we report three subjects with MGS and de novo heterozygous mutations in the 5' end of GMNN, encoding the DNA replication inhibitor geminin. We identified two truncating mutations in exon 2 (the 1(st) coding exon), c.16A>T (p.Lys6(∗)) and c.35_38delTCAA (p.Ile12Lysfs(∗)4), and one missense mutation, c.50A>G (p.Lys17Arg), affecting the second-to-last nucleotide of exon 2 and possibly RNA splicing. Geminin is present during the S, G2, and M phases of the cell cycle and is degraded during the metaphase-anaphase transition by the anaphase-promoting complex (APC), which recognizes the destruction box sequence near the 5' end of the geminin protein. All three GMNN mutations identified alter sites 5' to residue Met28 of the protein, which is located within the destruction box. We present data supporting a gain-of-function mechanism, in which the GMNN mutations result in proteins lacking the destruction box and hence increased protein stability and prolonged inhibition of replication leading to autosomal-dominant MGS., (Copyright © 2015 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2015
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16. Mutations in PURA cause profound neonatal hypotonia, seizures, and encephalopathy in 5q31.3 microdeletion syndrome.

Author

Lalani SR, Zhang J, Schaaf CP, Brown CW, Magoulas P, Tsai AC, El-Gharbawy A, Wierenga KJ, Bartholomew D, Fong CT, Barbaro-Dieber T, Kukolich MK, Burrage LC, Austin E, Keller K, Pastore M, Fernandez F, Lotze T, Wilfong A, Purcarin G, Zhu W, Craigen WJ, McGuire M, Jain M, Cooney E, Azamian M, Bainbridge MN, Muzny DM, Boerwinkle E, Person RE, Niu Z, Eng CM, Lupski JR, Gibbs RA, Beaudet AL, Yang Y, Wang MC, and Xia F

Subjects
Amino Acid Sequence, Animals, Base Sequence, Caenorhabditis elegans genetics, Chromosome Mapping, Humans, Molecular Sequence Data, Mutation genetics, Sequence Analysis, DNA, Syndrome, Abnormalities, Multiple genetics, Chromosome Deletion, Chromosomes, Human, Pair 5 genetics, DNA-Binding Proteins genetics, Muscle Hypotonia genetics, Seizures genetics, Transcription Factors genetics
Abstract

5q31.3 microdeletion syndrome is characterized by neonatal hypotonia, encephalopathy with or without epilepsy, and severe developmental delay, and the minimal critical deletion interval harbors three genes. We describe 11 individuals with clinical features of 5q31.3 microdeletion syndrome and de novo mutations in PURA, encoding transcriptional activator protein Pur-α, within the critical region. These data implicate causative PURA mutations responsible for the severe neurological phenotypes observed in this syndrome., (Copyright © 2014 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2014
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17. TM4SF20 ancestral deletion and susceptibility to a pediatric disorder of early language delay and cerebral white matter hyperintensities.

Author

Wiszniewski W, Hunter JV, Hanchard NA, Willer JR, Shaw C, Tian Q, Illner A, Wang X, Cheung SW, Patel A, Campbell IM, Gelowani V, Hixson P, Ester AR, Azamian MS, Potocki L, Zapata G, Hernandez PP, Ramocki MB, Santos-Cortez RL, Wang G, York MK, Justice MJ, Chu ZD, Bader PI, Omo-Griffith L, Madduri NS, Scharer G, Crawford HP, Yanatatsaneejit P, Eifert A, Kerr J, Bacino CA, Franklin AI, Goin-Kochel RP, Simpson G, Immken L, Haque ME, Stosic M, Williams MD, Morgan TM, Pruthi S, Omary R, Boyadjiev SA, Win KK, Thida A, Hurles M, Hibberd ML, Khor CC, Van Vinh Chau N, Gallagher TE, Mutirangura A, Stankiewicz P, Beaudet AL, Maletic-Savatic M, Rosenfeld JA, Shaffer LG, Davis EE, Belmont JW, Dunstan S, Simmons CP, Bonnen PE, Leal SM, Katsanis N, Lupski JR, and Lalani SR

Subjects
Age of Onset, Aging, Premature complications, Aging, Premature ethnology, Aging, Premature pathology, Asian People, Brain metabolism, Brain pathology, Child, Child, Preschool, Chromosomes, Human, Pair 2, Exons, Female, Humans, Language Development Disorders complications, Language Development Disorders ethnology, Language Development Disorders pathology, Leukoencephalopathies complications, Leukoencephalopathies ethnology, Leukoencephalopathies pathology, Magnetic Resonance Imaging, Male, Molecular Sequence Data, Pedigree, Sequence Analysis, DNA, Aging, Premature genetics, Base Sequence, Genetic Predisposition to Disease, Language Development Disorders genetics, Leukoencephalopathies genetics, Sequence Deletion, Tetraspanins genetics
Abstract

White matter hyperintensities (WMHs) of the brain are important markers of aging and small-vessel disease. WMHs are rare in healthy children and, when observed, often occur with comorbid neuroinflammatory or vasculitic processes. Here, we describe a complex 4 kb deletion in 2q36.3 that segregates with early childhood communication disorders and WMH in 15 unrelated families predominantly from Southeast Asia. The premature brain aging phenotype with punctate and multifocal WMHs was observed in ~70% of young carrier parents who underwent brain MRI. The complex deletion removes the penultimate exon 3 of TM4SF20, a gene encoding a transmembrane protein of unknown function. Minigene analysis showed that the resultant net loss of an exon introduces a premature stop codon, which, in turn, leads to the generation of a stable protein that fails to target to the plasma membrane and accumulates in the cytoplasm. Finally, we report this deletion to be enriched in individuals of Vietnamese Kinh descent, with an allele frequency of about 1%, embedded in an ancestral haplotype. Our data point to a constellation of early language delay and WMH phenotypes, driven by a likely toxic mechanism of TM4SF20 truncation, and highlight the importance of understanding and managing population-specific low-frequency pathogenic alleles., (Copyright © 2013 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2013
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